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Exploring Science edition © Pearson Education Limited 200826
8Aa
This unit covers diet, digestion and the transport of and uses for the nutrients in digested food. All of this is looked at within a context of food advertising (including diets and supplements).
We recommend between 8 and 11 hours of teaching time for this unit.
From KS2/previous units most pupils will:• understand that foods contain a variety of substances needed by
the body and recognise the idea of nutrition as a life process• appreciate that a wide variety of foods needs to be eaten to have
a balanced diet• know that food contains stored energy• be familiar with the names and positions of some of the organs in
the digestive system• know that substances are carried around the body by the blood –
the idea and process of absorption will be unfamiliar to most.• be familiar with respiration as one of the life processes.
This unit builds on ideas introduced in the QCA Scheme of Work for KS2: Unit 5A Keeping healthy. It also builds on work covered in Unit 7A Tissues and transplants and 7G What a waste!
The unit starts by looking at food advertising and the laws governing it. The components that are found in food are then covered, revising material from KS2 before going on to look at food tests and balanced diets. Digestion is then covered, including the role of enzymes.
Respiration is mentioned at the end of this unit and is covered in detail in Unit 8B. The latter looks at how oxygen is provided to cells for respiration, whilst this unit looks at how glucose is provided. The circulatory system is covered briefl y in this unit and in more detail in Unit 8B.
• Topic 8Aa starts by introducing the idea that health experts are worried about the effects of unhealthy diets on children, and the role that advertising plays in this. There is revision of what a diet is and the various food substances found in foods, including how to test for them. There is Could level material on the recommended daily intakes of different food substances.
• Topic 8Ab extends knowledge from 8Aa, considering the ideas of a balanced diet, the components of food and their uses, and the energy content of foods. There is Could level material on diseases and disorders that require special diets.
• Topic 8Ac covers digestion, the organs involved and the role of enzymes. Could level material covers teeth, extending ideas that pupils will have met in KS2.
• Topic 8Ad considers enzyme activity in more detail. There is an optional investigation for Attainment Target 1 on amylase activity. A set of level descriptions is provided in the ASP. Could level work covers the roles of the liver and pancreas in digestion.
• Topic 8Ae looks at the absorption of digested food in the small intestine and how the food substances are transported around the body to where they are required.
ExpectationsKey concepts At the end of this unit…All pupils must: (L4) Explain why food manufacturers use health slogans.(L5) Use a model to describe the action of enzymes.
Most pupils should: (L5) Recognise that scientifi c knowledge is sketchy in some areas and therefore drawing conclusions is diffi cult.(L6) Decide whether manufacturers are right to put certain claims on their food labels.(L6) Use models to represent the digestion of large insoluble food molecules.
Some pupils could: (L7) Explain why it is diffi cult to interpret some scientifi c facts.(L8) Describe the tests for water, protein, glucose and sucrose.
Key processes At the end of this unit…All pupils must: (WTL4) Display data in tables.(WTL4) Control variables appropriately, with help.(L4) Use data from secondary sources of information to construct bar charts.(L5) Without help, point out that variables need to be kept the same in investigations and stop these variables changing.
Most pupils should: (L4) Identify and control variables appropriately without help.(L5) Carry out and interpret results from tests for starch and fat.(L6) Display data in a variety of different forms.
Some pupils could: (L7) Explain what food allergies and intolerances are.(L8) Use own initiative to independently research and obtain secondary information from secondary sources.
Range and contentAt the end of this unit…All pupils must: (L4) Recall the names of the major nutrients in food and good sources of these substances.(L5) Describe what a balanced diet is.(L5) Describe how digested food is transported around the body.
Most pupils should: (L5) Recall that nutrients, fi bre and water are all vital components of a balanced diet and good sources of these substances.(L5) Recall the roles of nutrients, fi bre and water in the body.(L6) Describe how nutrients are digested and absorbed.(L7) Describe how nutrients are supplied to cells via the blood and tissue fl uid.
Some pupils could:(L8) Explain why some food cannot be digested by humans.
Be prepared8Aa Starter 3, 8Ab Exploring 3, 8Ab Explaining 3 and 8Ae Exploring 2 require advert cuttings, food packaging and/or scientifi c media reports about food.8Aa Exploring 2 and 8Ab Exploring 1 require nutrition information panels cut from various food packets.8Ab Explaining 5 requires a visit from a nutritionist.8Ac Explaining 3 requires a bicycle inner tube, stone, tennis ball, sock, sheep lungs and oesophagus.8Ae Explaining 2 requires glucose monophosphate solution and starch phosphorylase (or raw potato).
For a list of updated and vetted websites that can be used to support your teaching of this unit please visit the Exploring Science: How Science Works E-Forum (http://groups.google.co.uk/group/exploringscience).
8A Food, glorious food!
8A
M01_TTPG_5453_U0_5p.indd 26 12/9/08 12:24:38
© Pearson Education Limited 2008 27Exploring Science edition
8Aa
8A NC statements coveredFrom KS2
Statement TopicSc2 1a That the life processes common to humans and
other animals include nutrition, movement, growth and reproduction.
all
Sc2 2a About the functions and care of teeth. 8AcSc2 2b About the need for food for activity and growth,
and about the importance of an adequate and varied diet for health.
8Aa, 8Ab, 8Ae
Sc2 2c That the heart acts as a pump to circulate blood through vessels around the body, including through the lungs.
8Aa, 8Ab, 8Ae
At KS31 Key concepts
Statement Topic1a Using scientifi c ideas and models to explain
phenomena and developing them creatively to generate and test theories.
8Aa, 8Ac, 8Ad, 8Ae
1b Critically analysing and evaluating evidence from observations and experiments.
8Aa, 8Ab, 8Ad
2a Exploring how the creative application of scientifi c ideas can bring about technological developments and consequent changes in the way people think and behave.
8Ac
2b Examining the ethical and moral implications of using and applying science.
8Aa, 8Ab, 8Ae
3a Recognising that modern science has its roots in many different societies and cultures, and draws on a variety of valid approaches to scientifi c practice.
8Ab
4a Sharing developments and common understanding across disciplines and boundaries.
8Aa
2 Key processes
Statement Topic1a Use a range of scientifi c methods and techniques
to develop and test ideas and explanations.all
1b Assess risk and work safely in the laboratory, fi eld and workplace.
8Ab, 8Ad
1c Plan and carry out practical and investigative activities, both individually and in groups.
8Aa, 8Ab, 8Ac, 8Ad
2a Obtain, record and analyse data from a wide range of primary and secondary sources, including ICT sources, and use their fi ndings to provide evidence for scientifi c explanations.
8Aa, 8Ab, 8Ad, 8Ae
2b Evaluate scientifi c evidence and working methods.
8Ab, 8Ad
3a Use appropriate methods, including ICT, to communicate scientifi c information and contribute to presentations and discussions about scientifi c issues.
8Aa, 8Ab, 8Ad, 8Ae
3 Range and content
Statement Topic2b Elements consist of atoms that combine together
in chemical reactions to form compounds.8Ae
3a Life processes are supported by the organisation of cells into tissues, organs and body systems.
8Ac, 8Ad, 8Ae
3c Conception, growth, development, behaviour and health can be affected by diet, drugs and disease.
all
3e Behaviour is infl uenced by internal and external factors and can be investigated and measured.
8Aa, 8Ab, 8Ad
4 Curriculum opportunities
Statement Topica Research, experiment, discuss and develop
arguments.all
b Pursue an independent enquiry into an aspect of science of personal interest.
8Ab, 8Ac
c Use real-life examples as a basis for fi nding out about science.
8Aa, 8Ab, 8Ad, 8Ae
d Study science in local, national and global contexts, and appreciate the connections between these.
8Ab
e Experience science outside the school environment, including in the workplace, where possible.
8Aa, 8Ab
f Use creativity and innovation in science, and appreciate their importance in enterprise.
8Ab, 8Ad
h Explore contemporary and historical scientifi c developments and how they have been communicated.
8Ab
i Prepare to specialise in a range of science subjects at key stage 4 and consider career opportunities both within science and in other areas that are provided by science qualifi cations.
8Aa, 8Ab, 8Ad
j Consider how knowledge and understanding of science informs personal and collective decisions, including those on substance abuse and sexual health.
8Aa, 8Ab, 8Ae
k Make links between science and other subjects and areas of the curriculum.
8Aa, 8Ae
Links with other units
7A Nutrition and respiration as ‘life processes’. The concept of things being adapted to their functions. Cells, tissues, organs and organ systems.
8C Important microbes in food manufacture (e.g. baking). Anaerobic respiration.
7B The test for starch. Feeding babies.
8E The words dissolve, solvent, soluble, insoluble. Filtration.
7C Food as a source of energy. 8G Molecules7E Acid in the human
digestive system. 9B Food for health.
7G The particle model of matter.
9C Plants for food. Starch.
7I Food as a source of chemical energy.
9I Energy wasted as heat.
8B Transport of carbon dioxide and oxygen in the bloodstream. Respiration.
Cross-curricular links
Topic Links8Aa Food technology/PSHEE – healthy eating.
Citizenship – media and advertising.D&T – new foods.
8Ab Food technology/PSHEE – healthy eating.Citizenship – respecting differences (in diets).D&T – new foods.Geography – food around the world and food supply problems.
8Ac PSHEE – tooth decay.Citizenship – advertising claims.
8Ae Citizenship – advertising claims.Food technology/PSHEE – healthy eating.
Skills opportunities for Personal, Learning and Thinking Skills (PLTS), literacy, numeracy and ICT are included in the individual topic notes.
Food, glorious food! 8A
8A
M01_TTPG_5453_U0_5p.indd 27 12/9/08 12:24:38
Exploring Science edition © Pearson Education Limited 200828
Framework statements covered by Unit 8A
1 How Science Works
1.1 Explanations, arguments and decisions
Code Framework threads Year 8 Topic1.1a1 Scientifi c thinking: developing
explanations using ideas and models
Describe more than one model to explain the same phenomenon and discuss the strengths and weaknesses of each model.
8Ac, 8Ad
Describe how the use of a particular model or analogy supports an explanation.
8Ac, 8Ad
1.1a2 Scientifi c thinking: challenge and collaboration in the development of explanations
Recognise that science is a communal, and therefore fallible, human activity and that different explanations can arise from individual bias.
8Ab
Recognise questions that the scientifi c process cannot yet answer. 8Ab1.1a3 Scientifi c thinking: developing
argumentIdentify a range of scientifi c data and other evidence to back an argument and the counterclaim in more complex and/or less familiar contexts e.g. use of antibiotics.
8Ab, 8Ac
Describe how scientifi c evidence from different sources carries different weight in supporting or disproving theories.
8Ab
1.1b Applications, implications and cultural understanding
Explain some issues, benefi ts and drawbacks of scientifi c developments with which they are familiar.
8Ab, 8Ac, 8Ad, 8Ae
Recognise that decisions about the use and application of science and technology are infl uenced by society and individuals, and how these could impact on people and the environment.
8Aa, 8Ab, 8Ae
1.1c Communication for audience and with purpose
Use a range of scientifi c vocabulary and terminology consistently in discussions and written work.
all
Adapt the stylistic conventions of a range of genres for different audiences and purposes in scientifi c writing.
8Aa, 8Ab, 8Ae
1.2 Practical and enquiry skills
Code Framework threads Year 8 Topic1.2a Using investigative approaches:
planning an approachDescribe an appropriate approach to answer a scientifi c question using sources of evidence and, where appropriate, making relevant observations or measurements using appropriate apparatus.
8Aa, 8Ad
1.2b Using investigative approaches: selecting and managing variables
Describe and identify key variables in an investigation and assign appropriate values to these.
8Ad
1.2c Using investigative approaches: assessing risk and working safely
Explain how to take action to control the risks to themselves and others, and demonstrate competence in their practical techniques.
8Aa, 8Ad
1.2d Using investigative approaches: obtaining and presenting primary evidence
Explain how the observation and recording methods are appropriate to the task.
8Ab, 8Ad
Describe ways in which the presentation of experimental results through the routine use of tables, charts and line graphs makes it easier to see patterns and trends.
8Aa, 8Ab
1.2e Working critically with primary evidence
Describe how the patterns and trends in the results link to the conclusions drawn and whether the evidence is suffi cient.
8Ad
Describe and suggest, with reasons, how planning and implementation could be improved.
8Ad
1.2f Working critically with secondary evidence
Describe what needs to be considered in the collection and manipulation of simple secondary evidence to evaluate the conclusion or interpretation made.
8Ad
2 Organisms, behaviour and health
Code Framework sub-strands Year 8 Topic2.1 Life processes Explain how the organs and tissues in plants and animals function to support
the seven life processes in a healthy organism.8Aa, 8Ac, 8Ad, 8Ae
2.2 Variation and interdependence Explain how variation has benefi ts and limitations for the survival of organisms in specifi c habitats.
8Aa
2.3 Behaviour Explain how changes in learned behaviour due to internal and external stimuli are of benefi t to the organism.
8Aa, 8Ae
8A Food, glorious food!
8A
M01_TTPG_5453_U0_5p.indd 28 12/9/08 12:24:38
© Pearson Education Limited 2008 29Exploring Science edition
Food, glorious food! 8A
8A R
oute
s th
rou
gh t
he
un
itTh
is p
age
sugg
ests
rou
tes
thro
ugh
the
unit
at th
ree
diffe
rent
leve
ls, u
sing
som
e of
the
task
s pr
ovid
ed. M
any
othe
r te
achi
ng s
eque
nces
are
pos
sibl
e us
ing
the
alte
rnat
ive
teac
hing
mat
eria
ls a
nd t
asks
pro
vide
d or
by
addi
ng y
our
own
mat
eria
ls. W
e re
com
men
d be
twee
n 8
and
11 h
ours
of t
each
ing
time
for
this
uni
t.
Top
icLe
vel
Lear
nin
g ob
ject
ives
Key
wor
ds
Task
s8A
aM
ust
All
pupi
ls m
ust:
reca
ll th
at th
e w
ord
‘die
t’ ha
s di
ffere
nt m
eani
ngs
in s
cien
ce a
nd e
very
day
lang
uage
; rec
all w
hat t
he m
ajor
com
pone
nts
of o
ur d
iets
are
use
d fo
r (e
nerg
y, g
row
th a
nd r
epai
r, he
alth
); d
escr
ibe
wha
t a n
utrit
ion
info
rmat
ion
labe
l sho
ws;
per
form
test
s fo
r st
arch
and
fat.
carb
ohyd
rate
, die
t, fa
t, fi b
re, m
iner
al,
nutr
ition
info
rmat
ion,
pro
tein
, raw
m
ater
ial,
star
ch, s
ugar
, vita
min
Star
ter
1&4,
Exp
lorin
g 1,
Exp
lain
ing
2,
Expl
orin
g 3,
Ple
nary
3, H
omew
ork
1
Shou
ldM
ost p
upils
sho
uld:
des
crib
e, p
erfo
rm a
nd in
terp
ret r
esul
ts fr
om te
sts
for
star
ch a
nd fa
t; pe
rfor
m
and
inte
rpre
t res
ults
from
test
s fo
r pr
otei
n; e
xpla
in h
ow la
ck o
f fi b
re c
an le
ad to
con
stip
atio
n.co
nstip
atio
nSt
arte
r 1&
4, E
xpla
inin
g 1–
2, E
xplo
ring
2–3,
Pl
enar
y 4,
Hom
ewor
k 2
Cou
ldSo
me
pupi
ls c
ould
: des
crib
e th
e te
sts
for
wat
er, p
rote
in, g
luco
se a
nd s
ucro
se; e
xpla
in w
hat f
ood
alle
rgie
s an
d in
tole
ranc
es a
re.
Biu
ret s
olut
ion
Star
ter
1, E
xpla
inin
g 1–
2, E
xplo
ring
2–4,
Pl
enar
y 1,
Hom
ewor
k 4
8Ab
Mus
tA
ll pu
pils
mus
t: ex
plai
n w
hat a
bal
ance
d di
et is
and
why
it is
nee
ded;
rec
all a
t lea
st o
ne g
ood
sour
ce o
f eac
h nu
trie
nt a
nd w
hy it
is n
eede
d; e
xpla
in w
hy m
ore
activ
e pe
ople
nee
d m
ore
food
(e
spec
ially
car
bohy
drat
es);
rec
ogni
se th
at a
dver
tisin
g ca
n ha
ve n
egat
ive
effe
cts
on p
eopl
e.
bala
nced
die
tSt
arte
r 1,
Exp
lorin
g 1,
Exp
lain
ing
1, E
xplo
ring
5,
Plen
ary
3, H
omew
ork
2
Shou
ldM
ost p
upils
sho
uld:
rec
all t
hat f
ood
cont
ains
sto
red
chem
ical
ene
rgy
mea
sure
d in
kilo
joul
es;
reco
gnis
e th
at d
iffer
ent c
ultu
res
have
all
deve
lope
d ba
lanc
ed d
iets
; de
scrib
e so
me
prob
lem
s ca
used
by
not g
ettin
g a
bala
nced
die
t; ex
plai
n ho
w e
atin
g to
o m
uch
fat c
an c
ause
hea
rt d
isea
se.
kilo
joul
e, c
hem
ical
ene
rgy,
hea
rt d
isea
se,
obes
eSt
arte
r 1,
Exp
lorin
g 1–
2, E
xpla
inin
g 1–
3,
Plen
ary
1, H
omew
ork
3
Cou
ldSo
me
pupi
ls c
ould
: des
crib
e ho
w d
iet c
an c
ause
and
con
trol
som
e di
seas
es.
diab
etes
, ins
ulin
, kw
ashi
orko
rSt
arte
r 3,
Exp
lain
ing
1, E
xplo
ring
4,
Expl
aini
ng 2
–3, P
lena
ry 5
, Hom
ewor
k 4
8Ac
Mus
tA
ll pu
pils
mus
t: re
call
that
dig
estio
n is
the
brea
king
dow
n of
food
; rec
all t
he p
ositi
ons,
nam
es a
nd
func
tions
of t
he o
rgan
s in
the
dige
stiv
e sy
stem
; rec
all t
hat t
eeth
grin
d up
the
food
.an
us, d
iges
tion,
gul
let,
gut,
larg
e in
test
ine,
re
ctum
, sm
all i
ntes
tine,
sto
mac
hSt
arte
r 1,
Exp
lorin
g 1–
2, E
xpla
inin
g 1,
Pl
enar
y 3,
Hom
ewor
k 1
Shou
ldM
ost p
upils
sho
uld:
des
crib
e th
e ro
le o
f enz
ymes
in d
iges
tion;
des
crib
e w
hat h
appe
ns d
urin
g in
gest
ion,
abs
orpt
ion
and
eges
tion;
exp
lain
how
food
is m
oved
thro
ugh
the
gut b
y m
uscu
lar
cont
ract
ions
; des
crib
e a
bene
fi t o
f bac
teria
in th
e gu
t.
abso
rptio
n, c
ontr
act,
eges
tion,
el
imin
atio
n, e
nzym
e, fa
eces
, ing
estio
n,
inso
lubl
e, m
olec
ule,
sal
iva,
sol
uble
Star
ter
3, E
xpla
inin
g 1–
3, E
xplo
ring
2,
Expl
aini
ng 4
, Ple
nary
2, H
omew
ork
2
Cou
ldSo
me
pupi
ls c
ould
: rec
all t
hat t
he m
uscu
lar
cont
ract
ions
of t
he g
ut a
re c
alle
d pe
rista
lsis
; rec
all
that
the
saliv
ary
glan
d re
leas
es s
aliv
a; e
xpla
in w
hy s
ugar
s fr
om s
ome
carb
ohyd
rate
s ta
ke lo
nger
to
get i
nto
the
bloo
d th
an o
ther
s.
peris
tals
is, s
aliv
ary
glan
dSt
arte
r 3,
Exp
lain
ing
1, E
xplo
ring
2–3,
Ex
plai
ning
2–3
, Ple
nary
3, H
omew
ork
3
8Ad
Mus
tA
ll pu
pils
mus
t: re
call
the
func
tions
of t
he s
tom
ach
and
smal
l int
estin
e in
dig
estio
n; d
escr
ibe
how
di
gest
ion
is h
elpe
d by
dig
estiv
e ju
ices
(in
clud
ing
saliv
a), w
hich
con
tain
enz
ymes
; des
crib
e ho
w a
m
odel
can
be
used
to th
ink
abou
t how
som
ethi
ng w
orks
.
dige
stiv
e ju
ice,
enz
yme,
mod
el, s
aliv
aSt
arte
r 1,
Exp
lain
ing
1, E
xplo
ring
3,
Expl
aini
ng 2
, Ple
nary
3, H
omew
ork
1
Shou
ldM
ost p
upils
sho
uld:
des
crib
e ho
w e
nzym
es w
ork
best
at c
erta
in te
mpe
ratu
res
and
pHs;
des
crib
e ho
w s
tarc
h is
spl
it in
to g
luco
se d
urin
g di
gest
ion;
be
able
to e
valu
ate
a m
odel
.St
arte
r 3,
Exp
lain
ing
1, E
xplo
ring
3,
Expl
aini
ng 2
, Ple
nary
3, H
omew
ork
3C
ould
Som
e pu
pils
cou
ld: e
xpla
in h
ow b
ile h
elps
dig
estio
n; r
ecal
l the
end
pro
duct
s of
pro
tein
and
fat
dige
stio
n; e
xpla
in w
hy p
rote
in fr
om a
var
iety
of s
ourc
es is
nee
ded
in th
e di
et.
amin
o ac
id, b
ile, e
mul
sion
, ess
entia
l am
ino
acid
, fat
ty a
cid,
gly
cero
l, pa
ncre
asSt
arte
r 2,
Exp
lain
ing
1, E
xplo
ring
3,
Expl
aini
ng 2
, Ple
nary
1, H
omew
ork
48A
eM
ust
All
pupi
ls m
ust:
desc
ribe
how
dig
este
d fo
od is
car
ried
arou
nd th
e bo
dy to
the
cells
; rec
all t
hat t
he
hear
t and
blo
od v
esse
ls m
ake
up th
e ci
rcul
ator
y sy
stem
; rec
all t
hat d
iges
ted
food
is u
sed
to m
ake
new
sub
stan
ces;
des
crib
e ho
w d
iges
ted
food
can
pro
duce
ene
rgy
for
cells
; con
side
0r
the
effe
cts
of w
ords
use
d to
des
crib
e fo
ods
on th
eir
pack
ets.
bloo
d ve
ssel
, circ
ulat
ory
syst
em, h
ealth
cl
aim
, hea
rt, r
espi
ratio
nSt
arte
r 1,
Exp
lain
ing
1, E
xplo
ring
2,
Expl
aini
ng 3
, Exp
lorin
g 3,
Ple
nary
4,
Hom
ewor
k 1
Shou
ldM
ost p
upils
sho
uld:
des
crib
e ho
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8A Background information8Aa – Advertising food/On a dietThe word diet is most often used in the context of ‘going on a diet’ to lose body mass. Pupils need to understand that a diet means ‘what you eat’. A healthy diet should provide the fi ve nutrients (proteins, fats, carbohydrates, minerals and vitamins), fi bre and water.
Fibre mainly consists of plant cell wall material (cellulose), which humans do not have the ability to digest. Herbivorous animals use bacteria in their guts to digest this material. Herbivores tend to have longer guts than carnivores or omnivores to help with this process. Muscles in the wall of the gut squeeze the gut to push food along. This squeezing is called peristalsis. Fibre adds bulk to the food, thus aiding this process. A lack of fi bre can cause a lack of solid material for the muscles to push against and the food to move very slowly, resulting in constipation.
Water is also an important component of the diet. It is used to carry dissolved chemicals around the body and most biochemical reactions do not occur without the reactants being dissolved in water. It is also used as a lubricant.
Nutritional information labels should be familiar to most pupils from daily life. It should be noted that these nutritional contents are all mean (average) values.
To make ‘fair’ comparisons between foods, the content in 100 g of each food is examined. The contents do not always add up to 100 g since water is very often not mentioned on the labels.
8Ab – Keeping it balanced/Poor diets/Focus on: Diabetes and dietA balanced diet is one that contains a wide variety of foods. Many foods contain carbohydrates, proteins and fats, but may be lacking in some of the essential vitamins and mineral salts. It is also important to eat protein from a wide variety of different sources, since different proteins contain different amino acids.
Carbohydrates are used for energy and consist of the elements carbon, hydrogen and oxygen. They can best be classifi ed into two groups – those containing small molecules (sugars) and those containing sugars linked together to form long molecular chains. One of the best known examples of the latter is starch and that is the only long chain (or complex) carbohydrate that is considered in this unit. There are a whole variety of other complex carbohydrates including cellulose. Cellulose should not be mentioned to pupils in this context since it is indigestible by humans and therefore has no energy value to humans. It is the major component of fi bre.
Most sugars are drawn as hexagons because of the way that the carbon atoms in the molecule join together. One of the simplest sugars is glucose – one hexagonal ring (a monosaccharide). Another monosaccharide is fructose (pupils may have heard that bananas contain a lot of this). Sucrose is basically two hexagonal sugars joined together (a disaccharide). The same is true for lactose and maltose. Pupils will know that too much sugar is bad for teeth and can make you fat. Eating too much carbohydrate increases body mass since any extra is turned into fat and stored.
Pupils often hold the misguided notion that all fat is bad for you. In fact, fat is a vital component of the diet (for example, it is one of the major components of cell membranes). Fats are also used as an energy store and as insulation under the skin. Fats also contain a store of some vitamins (see below). It should be emphasised that, whilst too much fat is not a good idea, we all need to eat some. A fat is basically a molecule of a chemical, called glycerol, which has three chains of fatty acids attached to it. It is composed of carbon, hydrogen and oxygen atoms. Animal fats tend to be saturated (they have as many hydrogen atoms as will possibly fi t onto the
chain). Eating too much saturated fat has been linked with the over-production of cholesterol (another fatty substance that can stick to artery walls, thus blocking them and causing heart disease). We do need some cholesterol in our diet (although it can be made by the liver) since it is a precursor of many other important compounds needed by the body (including some hormones). Vegetable fats are regarded as healthier since they do not contribute so readily to the over-production of cholesterol (they tend to be unsaturated – having some ‘empty gaps’ where hydrogen atoms could fi t).
Proteins are chemicals vital for growth. They form essential parts in cells and nearly all enzymes (chemicals that help biochemical reactions to occur – ‘biological catalysts’) are proteins. They consist of long chains of amino acids. These contain oxygen, carbon, hydrogen and nitrogen. The body breaks down proteins to their constituent amino acids, and then rebuilds them into new proteins. A defi ciency of protein causes a muscle-wasting disease called kwashiorkor.
Vitamins are compounds needed in small amounts. They are divided into two groups – fat-soluble vitamins and water-soluble ones. The former are vitamins A, D, E and K and all the rest are water-soluble. The fat-soluble ones can easily be stored in fat in the body. Some of the water-soluble ones (e.g. vitamin C) can also be stored to some extent. The two vitamins covered in the Pupil’s Book are A and C. Vitamin A is needed for good eyesight (especially in the dark). It also helps skin cells to develop and is needed for strong bone growth. Vitamin C is used to help form ‘connective tissue’, that is tissue that helps join other tissues together. A defi ciency over a period of about 6 months causes scurvy (a disease characterised by bodily weakness, bleeding gums and swollen, painful joints).
The elements carbon, hydrogen and oxygen are provided in most foods. Nitrogen is provided in proteins. Trace elements (e.g. calcium and iron) are those that, although vital, are needed in much smaller quantities. These trace elements are taken in the form of chemical compounds that make up organisms used as part of our food. Calcium is needed in the formation of bone. A defi ciency causes rickets. Iron is needed to make haemoglobin (the oxygen-carrying chemical in red blood cells). A defi ciency results in anaemia (reduced oxygen-carrying ability, resulting in shortness of breath and a lack of energy). What we tend to refer to as minerals are really mineral salts – that is compounds that contain an important element for our health. Calcium phosphate is a mineral salt. We tend to call this ‘calcium’ or ‘phosphorus’ depending on the context!
There are a huge range of terms used to recommend how much of each sort of food substance someone should eat. For many years the recommended daily allowance or RDA system used to suggest how much of a certain food substance you should eat. This system has generally been replaced by Guideline Daily Amounts (GDAs). GDAs are estimates of the amount of energy and nutrients needed by people in the UK, arranged into groups by age and sex. They take into account more types of data than the old RDAs.
There is also data available for Tolerable Upper Limits (TULs). This information can be important when people are eating very unbalanced diets or taking large amounts of supplements since some nutrients (e.g. vitamin A) have been demonstrated to be harmful above a certain level of intake.
Dieting is something that many teenagers become concerned about. Important points that should be stressed, in class discussion, are that people all have different body shapes and sizes, partly because of who we are (inherited causes) and partly because of what we eat (environmental causes). It is also true to say that many children will lose excess fat as they go through puberty (the excess fat can be thought of as an evolutionary adaptation, providing insulation and a ready supply of stored energy for young, more vulnerable humans until they can fend for themselves).
8A Food, glorious food!
8A
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Junk food may, on fi rst inspection, appear to be fairly balanced. However, most of it contains very high levels of sugar and fat, and many essential vitamins and minerals are missing. Most of it is highly processed, which removes a great deal of the fi bre. One piece of lettuce and a tomato in a hamburger does not constitute a good supply of fi bre and vitamins!
Excess carbohydrates in the diet are converted into fat (both fats and carbohydrates are composed of carbon, hydrogen and oxygen atoms) and stored. Equally, if there is not enough carbohydrate in the diet, the fat will be reconverted into a form that can be used for respiration. In starvation, when fat stores have been used up, the body converts protein into a form that can be used in respiration. This can result in the body destroying its own muscles to release protein, leading to a wasting condition called marasmus.
8Ac – You’ve got gutsFor a full discussion on the roles of individual food components, see section 8Ab.
The parts of the digestive system that food goes through (apart from the mouth) are collectively known as the gut. The gut contains the gullet or ‘food pipe’ (also known as the oesophagus), stomach, small intestine (split into two parts – duodenum and ileum), large intestine (or colon), rectum and anus. For simplicity’s sake, the words in brackets are not used in the Pupil’s Book and do not need to be known. The rest of the digestive system consists of salivary glands, liver, gall bladder and the pancreas. Only the salivary glands and liver are referred to on page 14. The pancreas is mentioned on page 13 for more able pupils. The gall bladder is not covered (it stores bile).
Digestion occurs because most food is insoluble, and only soluble substances (for the most part) can be absorbed into the body.
Digestion starts in the mouth, where the salivary glands (a gland is an organ whose main function is to secrete specifi c chemicals), release saliva. This contains an enzyme. Enzymes can be imagined as ‘chemical scissors’, cutting up long molecules into shorter ones. The enzyme in saliva is called amylase and it chops up starch into a sugar (called maltose). A slight simplifi cation (that starch is turned into glucose directly) is implied in the Pupil’s Book and worksheets. The teeth help to grind the food, mixing it thoroughly with saliva and giving the amylase more surface area on which to work. The saliva also contains mucin, a sticky substance that holds the food together and lubricates it ready for swallowing. The lump of lubricated food is called a bolus. This passes down the gullet, moved by contractions of muscles (peristalsis).
The stomach wall secretes pepsin (which breaks down proteins into shorter chains called peptides) and hydrochloric acid (which kills bacteria and helps to ‘activate’ pepsin). Pupils often ask why, if the contents of the stomach are between pH 1 and 2, the stomach does not dissolve itself. This is because the stomach releases a sticky mucus that lines the stomach and prevents attack from the acid. Problems with mucus production can cause stomach ulcers. The stomach churns the food up into a liquid called chyme. The chyme is released slowly into the fi rst part of the small intestine (the duodenum).
Here, the acid from the stomach is neutralised by a constituent of bile, allowing enzymes secreted into the small intestine to work. Various enzymes are released by the wall of the small intestine and by the pancreas (another gland). These include maltase, which splits maltose into glucose, and peptidases, which split peptides into amino acids. Bile (a green liquid, produced by the liver) is released from the gall bladder. This forms an emulsion with fats, giving a suspension of small fat droplets and providing a greater surface area for lipase enzymes to get to work, splitting the fats into fatty acids and glycerol. The term glycerol is not mentioned in the Pupil’s Book.
8Ad – Break downFor information on digestion and digestive enzymes see 8Ac.
Each enzyme has an optimum pH and a temperature at which it works best. Pepsin has an optimum pH of about pH 2 and salivary amylase an optimum of about pH 7. In humans, the optimum temperature for most enzymes is body temperature (37 °C).
8Ae – In the blood/Health claimsThe absorption of digested food occurs in the small intestine. To ensure that this process happens quickly, the small intestine is highly folded and has fi nger-like projections, called villi, sticking out of it into the liquifi ed food. The cell membranes of the cells making up each villus are also highly folded, forming microvilli. The folds, villi and microvilli, all increase the surface area of the small intestine to ensure rapid absorption. In addition, the outer cells on the villi are thin, allowing substances to pass quickly through and into the capillaries inside.
Sugars and amino acids (from carbohydrate and protein digestion respectively) pass into a fi ne network of small blood vessels called capillaries inside the villi. At this level pupils do not need to understand how this happens and may be told that it happens by diffusion – small molecules happen to pass through the small intestine wall on their own (rather like a smell spreading through a room without anything having to move the ‘smell particles’). In fact absorption is more complex than this, with the cells on the surface of the villi actively picking up the digested food molecules and transporting them into the capillaries.
Not all digested food enters the bloodstream. The majority of glycerol and fatty acids (from the digestion of fats) enter a blind tube in the centre of each villus, called a lacteal. The lacteals empty their contents into the lymphatic system. This is a network of tubes that run throughout the body, eventually draining into the bloodstream.
Respiration is a cellular process that occurs in certain small compartments (organelles) in the cytoplasm called mitochondria. Many pupils make the mistake of saying that ‘energy’ is a product. This is not true since ‘energy’ is not a substance. In fact, the energy released by respiration is not used instantly but is stored in another molecule called ATP, until it is needed. More properly put, the energy is transferred from the glucose to ATP.
In general terms, more active people require more food. Males tend to need more energy foods than females, simply due to differences in body biochemistry. This is not an exact science, since different people do different activities and have different metabolic rates (the speed with which food is used up in the body). Rough estimates of the amount of energy used per hour in various activities are shown in the table. Actively growing teenagers require more energy than many adults, because rapid growth needs extra energy.
Activity kJ/hour Activity kJ/hour
sleeping 270 cycling 1500sitting 350 heavy manual labour 2000standing 430 playing football 2200slow walking 760 stair climbing 2300fast walking 1200 running 2500
The products of respiration are carbon dioxide and water. The carbon dioxide is excreted from the body via the lungs. The water tends to stay in the cell, or if it is not needed it is released into the tissue fl uid and, thence, the bloodstream. It is a fallacy to say that the water from respiration also leaves the body via the lungs. The lungs need to be kept moist in order for oxygen absorption to take place effectively.
The energy released by respiration is used for movement and to power the biochemical reactions that occur in the body.
Food, glorious food! 8Aa
8A
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8Aa Advertising food
Pupil’s materials
Number and title Level Location Type Tasks
Advertising food Must/Should PB p7 Classwork Explaining 1
On a diet Must PB pp8–9 Classwork Explaining 2
8A Quick Quiz Must/Should ASP Classwork Starter 1
8A Quick Quiz Answer Sheet Must/Should ASP Classwork Starter 1
8Aa Quick Check Must/Should ASP Classwork Plenary 2
8Aa Word Sheet Must/Should ASP Classwork Plenary 4
8Aa(1) On a diet Must CHAP Access Explaining 2
8Aa(2) Testing for starch Must CHAP Practical Exploring 3
8Aa(3) Testing for fat Must CHAP Practical Exploring 3
8Aa(4) Testing foods 1 Must CHAP Practical Exploring 3, Exploring 4
8Aa(5) Testing for protein Should CHAP Practical Exploring 3
8Aa(6) Testing for sugars Could CHAP Practical Exploring 4
8Aa(7) Testing foods 2 Should/Could CHAP Practical Exploring 3, Exploring 4
8Aa(8) Food links Must CHAP Homework Starter 2
8Aa(9) Foods and tests Must CHAP Homework Homework 1
8Aa(10) Foods and adverts Should CHAP Homework Homework 2
8Aa(11) ELISA tests Could CHAP Homework Homework 3
SS44–45 Microscopes and slides Should Year 7 CHAP Skills Sheet Exploring 6
ObjectivesAll pupils must:
(1) recall that the word ‘diet’ has different meanings in science and everyday language
(2) recall what the major components of our diets are used for (energy, growth and repair, health)
(3) describe what a nutrition information label shows(4) perform tests for starch and fat. Correctly use the words carbohydrate, diet, fat, fi bre,
mineral, nutrition information, protein, raw material, starch, sugar, vitamin.
Most pupils should:(5) describe, perform and interpret results from tests for starch
and fat(6) perform and interpret results from tests for protein(7) explain how lack of fi bre can lead to constipation. Correctly use the word constipation.
Some pupils could:(8) describe the tests for water, protein, glucose and sucrose(9) explain what food allergies and intolerances are. Correctly use the words Biuret solution.
Topic notes• Targets for the topic can be accessed via the ActiveBook or
ActiveTeach from the link next to the initiator question.
Be prepared: 8AaStarter 3: food adverts cut from magazines and newspapers.Exploring 2: nutrition information panels from a variety of foods.
Exemplar topic plans
MUST
PB pages 8–9
Starter 1Starter 4Exploring 1Explaining 2Exploring 3Plenary 3Homework 1
SHOULD
PB pages 7–9
Starter 1Starter 4Explaining 1Exploring 2Explaining 2Exploring 3Plenary 4Homework 2
COULD
PB pages 7–9
Starter 1Explaining 1Exploring 2Explaining 2Exploring 3Exploring 4Plenary 1Homework 4
SHOULD 2 Yr KS3*
PB pages 7–12
8Aa Starter 18Aa Explaining 18Aa Explaining 28Aa Exploring 38Ab Explaining 18Ab Explaining 28Ab Explaining 38Ab Plenary 38Ab Plenary 48Ab Homework 3
*This table is repeated in 8Ab.
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8Aa
Topic task plannerUse these tasks to adapt the exemplar topic plans to your own needs. Many tasks can be adapted to become different types (e.g. ‘starter’ rather than ‘exploring’). AT or AB/AT at the top of a task means that the task depends on using the ActiveBook and/or ActiveTeach; where these symbols appear in brackets it indicates that the task can be carried out with or without their use.
Task Level NC Type Objectives Skills 1 KC 2 KP 3 RC 4 CO
Starter 1 M/S 4–7 Classwork whole unit PLTS (Rl) 3c
Starter 2 M 4 Classwork fi rst 2 topics PLTS (Rl) 3c
Starter 3 M/S/C 4 Classwork 5 PLTS (Tw) 2b 3a 3c, 3e a, c, i, j
Starter 4 M 4 Classwork 5 2b 3c, 3e c, e, j
Exploring 1 M 4 Classwork 1, 2 PLTS (Ct, Tw) 3c a
Exploring 2 M 4 Classwork 1, 2, 3 2a 3c a
Exploring 3 M/S 4–6 Practical 4, 6, 7 Num (T, B), PLTS (Ep, Tw, Ie) 1a, 1c, 2a, 3a 3c a, c, i
Exploring 4 C 7–8 Practical 7, 9 Num(T), PLTS (Ep, Tw) 1a, 1c, 2a, 3a 3c a, c, i
Exploring 5 S 6 Practical 8 1a 3c a, c, i
Exploring 6 S 6 Practical 8 PLTS (Ep, Tw, Ie) 1a 3c a
Explaining 1 M/S 5–7 Classwork 5 1a, 1b, 2b, 4a 1a 3c, 3e c, j
Explaining 2 M/S 4–6 Classwork 1, 2, 3, 4, 6, 7, 8 1a, 2a 3c a, c, i, k
Explaining 3 S 6 Classwork 8 3c
Explaining 4 S/C 6–8 Classwork 6, 7, 9 Lit (DS), PLTS (Rl) 1a 3c
Plenary 1 M/S 6 Classwork 2, 3, 8 PLTS (Ct) 3c
Plenary 2 M/S/C 4–6 Classwork 1, 2, 3, 4, 6, 7, 8 PLTS (Ct) 1a 3c
Plenary 3 M/S 4–6 Classwork 1, 2, 3, 4, 6, 8 Lit (WF) 1a 3c
Plenary 4 M/S 4–6 Classwork 1, 2, 3 Lit (WF), PLTS (Rl) 3c
Homework 1 M 4–5 Homework 1, 2, 3, 4 Num (C) 1a, 2a 3c
Homework 2 S 6 Homework 2, 3, 4, 5, 6, 8 Num (C) 1a, 2a, 3a 3c
Homework 3 C 7–8 Homework 10 Lit (EC) 2a 3c c, j
Homework 4 M 4 Homework 1 2a, 3a 3c c, j
Starters
1: Quick QuizAfl Use the 8A Quick Quiz for baseline assessment. Pupils can use
the 8A Quick Quiz Answer Sheet to record their answers.
2: Foods true and falseAfl Worksheet 8Aa(8) provides a true or false exercise that can be
used to determine how much pupils already know about nutrients and why they are needed (covering this topic and the next). You may wish to use only the fi rst question on this worksheet if you do not have much time for the starter activity. The phrases used on this worksheet will be met again if pupils are asked to construct the concept map in Topic 8Ae.
3: Food advertsGive pupils adverts for foods cut from newspapers and magazines. Ask pupils to imagine that they are working for an advertising agency looking to recruit people. The adverts are all from different people who have applied for a job. There is one job available. Pupils should work in groups to choose an advert that they think works the best at persuading people to buy that food. They should agree on two statements to explain their choice of advert. Each group appoints a spokesperson to report their group’s fi nding to the class – showing the class which advert they picked and giving the two reasons why the group thought it was the best (and giving the creator of that advert the job).
• Must: give pupils a limited choice of adverts.• Should: give pupils a larger choice.• Could: ask pupils to think about the language of adverts
themselves, identifying key phrases used in food advertising.
Resources (per group)Food adverts cut from magazines and newspapers.
4: Food and advertising ATThe AT video link on page 7 opens Food and advertising – in which Dr Jason Halford and Emma Boyland explain the effects of food advertising and how it is controlled. At the end of the video pupils should write down one sentence summarising what they have learnt from the video.
Exploring tasks
1: What do our bodies need food for?Ask pupils to work in groups to answer the question: What do our bodies need food for? Give them only a few minutes in which to come up with some suggestions. Ask the groups to read out their suggestions and use them as part of a discussion to agree on the three main things that food is used for: energy, growth and repair, and health. Having agreed on this, ask pupils to think up a mnemonic to remember these three things. A good suggestion might be: Enjoy Great Health.
2: Nutrition information labels (AT)Ask pupils to generate questions that they could answer from nutrition information labels (e.g. What are the main nutrients in food? Which sorts of foods contain mainly one sort of nutrient? Which sorts of food contain things that some people are allergic to?). Nutrition information labels cut from packets are handed out to groups of pupils who are then challenged to answer their questions and identify the main nutrients in foods in general. Ask pupils how information from nutrition labels can help them make healthier choices.
Advertising food 8Aa
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8Aa
Alternatively the third AT presentation link on page 8 opens Food labels – a presentation of four different nutrition information labels. Pupils should quickly discover that carbohydrates, proteins and fats are the main nutrients.
Resources (per group)Nutrition information labels cut from packets.
3: Practical: Simple food testsRemind pupils that many scientists are employed to check what is in foods to make sure that their labels are accurate and consumers can trust what they are buying. The scientists use the same sorts of tests for fat, protein and starch (a carbohydrate) that are given in the Pupil’s Book and on Worksheets 8Aa(2), 8Aa(3) and 8Aa(5).
The blue–black colour produced by the iodine test shows up better in powdered food samples that have been mixed with an equal volume of water. Other, non-powdered foods can easily be tested by adding ‘iodine solution’ directly to the food.
The test for fat is very simple, if a bit messy. A food sample is rubbed into a piece of paper. Filter paper tends to work best. A greasy mark, visible when the paper is held up to the light, indicates the presence of fat.
The Biuret test for protein involves using either pre-made ‘Biuret solution’ or sodium hydroxide and copper sulphate solutions. The Pupil’s Book indicates the former approach, since it is easier for pupils to do. Both approaches are indicated on Worksheet 8Aa(4). For both tests, the food sample has to be in water. A spatula of powdered food can simply be shaken with about 2 cm depth of water in the test tube. However, the tests work better if foods are mashed with 2–3 cm3 of water using a pestle and mortar fi rst. A positive result is indicated by a purple colour, which may take a couple of minutes to appear.
Before starting the practicals, show pupils the apparatus they will be using and ask them how they will use the apparatus in a safe way.
• Must: use worksheet 8Aa(4) to help them present their results. Do not do the protein test.
• Should: do tests for starch, fats and proteins and use Worksheet 8Aa(7).
Iodine solution stains skin and may irritate the eyes. Wear eye protection. Biuret solution and sodium hydroxide are irritants. Wear eye protection. Pupils should not eat the foods tested.
Resources (per group)Starch Test: Iodine solution (1 g iodine in 100 cm3 1.0 mol dm–3 potassium iodide solution); spotting tile; test tube(s); stopper(s); food sample(s); pipette, water; eye protection; Worksheet 8Aa(2).Fat Test: Food sample(s); fi lter paper; Worksheet 8Aa(3).Protein Test: Food sample(s); test tube(s); pestle and mortar; Biuret solution (obtainable from an educational supplier or made) or dilute sodium hydroxide solution (0.2 mol dm–3) (labelled irritant) and copper sulphate solution (0.1 mol dm–3); eye protection; Worksheet 8Aa(5).
4: Practical: More food testsFood standards scientists also test for sugars. Worksheet 8Aa(6) provides further food tests for two sugars (glucose and sucrose). This is a bit of a simplifi cation since other sugars will also be detected. The tests are not the same due to the different molecular structures of the sugars (glucose is termed a reducing sugar and sucrose is a non-reducing sugar). It is suggested that only the test for glucose is performed by pupils. The sucrose test is best done as a teacher demonstration. Note that glucose is not found in normal packet sugar (which is pure sucrose).
Boiling water hazard. Wear eye protection.
Resources (per group)Bunsen burner; heatproof mat; boiling tube; Benedict’s solution; tripod; gauze; pipette; food sample(s); pestle and mortar; eye protection; Worksheets 8Aa(6), 8Aa(7).Resources (for demonstration)Additionally for the sucrose test: dilute hydrochloric acid (0.5 mol dm–3) and sodium hydrogen carbonate solution (1 mol dm–3).
5: Practical: Testing for waterWater is an important component of the diet and some pupils may be interested in fi nding out which foods contain a lot of water. Food standards scientists also test the water content of foods, since some foods can have water pumped into them to make them look more appetising. Place anhydrous (blue) cobalt chloride paper on a food sample. It will turn pink in the presence of water. Obviously, food scientists use more complicated tests but this experiment provides another example of how components in food can be tested.
Cobalt chloride paper should be directly handled as little as possible. Hands should be washed if direct contact is made with the skin.
Resources (per group)Anhydrous cobalt chloride paper; forceps; food samples.
6: Practical: A fi bre providerPupils examine fi bre under a microscope. This is easily done with boiled celery or well soaked All-Bran®. Iodine stains the fi brous tissue (but point out to pupils that it does not change colour – we are not testing for starch). Pupils could be encouraged to work out what fi bre is made from, using their knowledge from Unit 7A about plant cell structure. Use Skills Sheets SS44 and SS45 from Year 7 CHAP.
Iodine solution stains the skin and may irritate the eyes.
Resources (per group)Microscope; boiled celery or 2-hour soaked All-Bran® in water; iodine solution (1 g iodine in 100 cm3 1.0 mol dm–3 potassium iodide solution); cavity slides; coverslips; eye protection; forceps; Year 7 CHAP Skills Sheets SS44 and SS45.
Explaining tasks
1: Pupil’s Book page 7 (AT/AB)Page 7 of the Pupil’s Book introduces pupils to food advertising and how it is controlled. Ask pupils what they think advertising is for. Ask them what food advertising they have seen and what impressions it has made on them.
• The AT video link opens Food and advertising (see Starter 4).
2: Pupil’s Book pages 8–9 (AB/AT)Pages 8–9 in the Pupil’s Book revise and extend work from KS2 on food substances and how the body uses them, before going on to introduce food tests. Worksheet 8Aa(1) is the Access Sheet.
• The AT video link on page 8 opens Food labels – in which Emma Boyland from the Kissileff Laboratory for the study of Human Digestive Behaviour, at the University of Liverpool, explains how food has changed over the years and how the labels have changed.
• The fi rst AT spreadsheet link on page 8 opens Nutrition information labels – in which pupils need to extract and interpret data from some food labels.
• The third AT presentation link on page 8 opens Food labels (see Exploring 2).
8Aa Advertising food
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8Aa
• The second AT spreadsheet link on page 8 opens Bread nutrition information – which contains the same data as on label B, allowing pupils to answer Question 2 electronically.
• The AT video link on page 9 opens Food tests – see Explaining 4.
3: Why do we need water?Tell pupils that people have been known to live for over 60 days without food but only for a few days without water. Explain that water is used as a solvent in the body (linking with ideas in Unit 8E), it is used to cool you down through sweating and is used to give cells their shape. It is also used as a raw material for some of the body’s reactions but it is not generally thought of as a nutrient. Remind pupils of work carried out in Units 7C and 7D on adaptations of animals. Explain that some animals, like oryx, don’t need to drink and obtain all the water they need from the plants that they eat. Explain that animals living in dry environments also have other ways in which to conserve precious water (e.g. camels produce very concentrated urine, only sweat when the temperature is above 41 °C and store water in their stomachs).
4: Food test videos (AB/AT)Afl The AT video link on page 9 opens Food tests – which shows
pupils a range of food tests. The fi rst AB document link on page 9opens Food test – which can be given to pupils before they watch the video. Ask them to complete the sheet to make predictions. You could challenge some pupils to explain their predictions. Allow pupils to watch the video presentation in which the various food tests are explained and demonstrated and then ask pupils to check their answers again. Ask them how useful they think it was to think about what they were going to watch before actually watching the video.
Plenaries
1: Thinking about diet (AT)Afl Use the following thinking skills questions as a plenary.
• CAP: not every individual chemical in a food is printed on its nutrition label. (Possible answers: if all the chemicals were included it would put people off buying the food; not everything in the food is known; some substances in the food are complicated mixtures and it makes more sense putting the name of the mixture on the label rather than all the chemicals in the mixture.)
• OOO: carbohydrates, proteins, fi bre, vitamins. (Possible answers: fi bre is not a nutrient; vitamins as we only need them in small amounts.)
• OOO: fi bre, water, sugar. (Possible answers: sugar is the only carbohydrate; sugar is the only nutrient; water is the only liquid; fi bre is the only one that won’t disappear when mixed with water.)
The second AT presentation link on page 9 opens Thinking about diet – a PowerPoint presentation version of this task.
2: Quick CheckAfl The 8Aa Quick Check sheet provides a set of answers to which
pupils need to construct the questions.
• Must: pupils write questions for answers 1–5.• Should: pupils write questions for answers 1–10. • Could: pupils write two questions for each answer 1–10.
3: I can… cloze exercise AB/ATAfl The second AB document link on page 9 opens a cloze
exercise summarising the content of pages 8–9. There is also an AT presentation version with answers.
4: Word defi nitionsAfl Give pupils copies of the Word Sheet for this topic but with
the defi nitions missing (either edit them out from the CD version of the sheet or photocopy with a piece of paper over the defi nitions). Ask pupils to put a number from 1–5 against each word to show how confi dent they are that they know the meaning (5 meaning ‘absolutely certain’, 1 meaning ‘no idea’). Then read out the words one by one and ask for a show of hands for CRI scores of 4 and 5 (see Introduction, page 17), identify the two or three words that pupils are least sure about and revise their meanings, before quickly running through the meanings of the other words.
Homework tasks
1: Worksheet 8Aa(9) provides simple questions on food and food tests.
2: Worksheet 8Aa(10) provides questions on food and advertising. 3: Worksheet 8Aa(11) is a comprehension type exercise on food
intolerance tests. 4: Ask pupils to keep a diary of everything that they eat before
the next science lesson (when they will examine their diaries in Starter 3).
Advertising food 8Aa
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Pupil’s materials
Number and title Level Location Type Tasks
Keeping it balanced Must/Should PB pp10–11 Classwork Explaining 1
Poor diets Should PB p12 Classwork Explaining 2
Focus on: Diabetes and diet Could PB p13 Classwork Explaining 4
8Ab Quick Check Must/Should ASP Classwork Starter 1, Plenary 2
8Ab Word Sheet Must/Should ASP Classwork
8Ab(1) Keeping it balanced Must CHAP Access Explaining 1
8Ab(2) Poor diets Must CHAP Access Explaining 2
8Ab(3) Focus on: Diet and diabetes Should CHAP Access Explaining 4
8Ab(4) Newspaper article 1 – CHAP Classwork Exploring 3
8Ab(5) Newspaper article 2 – CHAP Classwork Exploring 3
8Ab(6) Food wheels – CHAP Classwork Exploring 4
8Ab(7) A Big Burger meal Should CHAP Homework Homework 1
8Ab(8) Balanced diets Should CHAP Homework Homework 2
8Ab(9) Food and activity Must CHAP Homework Homework 3
8Ab(10) Salt – good or bad? Should CHAP Homework Exploring 3
8Ab(11) The work of a food scientist Could CHAP Homework Homework 4
SS58 What food contains Must Year 7 CHAP Skills Sheet Exploring 1
8Ab Keeping it balanced
8Ab
ObjectivesAll pupils must:
(1) explain what a balanced diet is and why it is needed(2) recall at least one good source of each nutrient and why it is
needed(3) explain why more active people need more food (especially
carbohydrates)(4) recognise that advertising can have negative effects on people. Correctly use the words balanced diet.
Most pupils should:(5) recall that food contains stored chemical energy measured in
kilojoules(6) recognise that different cultures have all developed balanced
diets(7) describe some problems caused by not getting a balanced
diet(8) explain how eating too much fat can cause heart disease. Correctly use the words kilojoule, chemical energy, heart
disease, obese.Some pupils could:
(9) describe how diet can cause and control some diseases. Correctly use the words diabetes, insulin, kwashiorkor.
Topic notes• Targets for the topic can be accessed via the ActiveBook or
ActiveTeach from the link next to the initiator question.• Care should be taken when discussing ‘weight problems’ and
obesity since some pupils will be sensitive about their weight. You may help them by saying that being ‘fat’ used to be a sign of wealth and people strived to be fat. Our bodies are also very good at storing fat which was useful thousands of years ago when people were hunter gatherers but is not so helpful in ‘Western society’. Indeed, on a point of cultural understanding, there are many cultures (particularly African) that still put a higher status on people who are fat.
Exemplar topic plans
MUST
PB pages 10–11
Starter 1Exploring 1Explaining 1Exploring 5Plenary 3Homework 2
SHOULD
PB pages 10–12
Starter 1Exploring 1Explaining 1Exploring 2Explaining 2Explaining 3Plenary 1Homework 3
COULD
PB pages 10–12
Starter 3Explaining 1Exploring 4Explaining 2Explaining 3Plenary 5Homework 4
SHOULD 2 Yr KS3*
PB pages 7–12
8Aa Starter 18Aa Explaining 18Aa Explaining 28Aa Exploring 38Ab Explaining 18Ab Explaining 28Ab Explaining 38Ab Plenary 38Ab Plenary 48Ab Homework 3
*This table is repeated in 8Aa.
Be prepared: 8Ab Exploring 1: nutrition information panels.Exploring 3: food packaging, food advertisements, scientifi c magazine/newspaper reports about food.Explaining 3: a range of adverts for fatty/junk food.Explaining 5: a visit from a nutritionist.
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Topic task plannerUse these tasks to adapt the exemplar topic plans to your own needs. Many tasks can be adapted to become different types (e.g. ‘starter’ rather than ‘exploring’). AT or AB/AT at the top of a task means that the task depends on using the ActiveBook and/or ActiveTeach; where these symbols appear in brackets it indicates that the task can be carried out with or without their use.Also consider using one of the plenaries from the previous topic as a starter task in this topic.
Task Level NC Type Objectives Skills 1 KC 2 KP 3 RC 4 CO
Starter 1 M/S 5 Classwork 2 3c j
Starter 2 M 4 Classwork fi rst 2 topics PLTS (Rl) 3c
Starter 3 M/S 5 Classwork 1, 2 3c c, j
Starter 4 M/S 5–7 Classwork 2, 3, 4, 7 Lit (DS), PLTS (Tw, Ep) 3c a, j
Exploring 1 M/S/C 5–8 Classwork 2, 3, 5 Num (B), ICT (SS), PLTS (Ie) 2a, 3a 3c a, c
Exploring 2 M 4 Classwork 2, 3 ICT (WP), PLTS (Tw) 3a 3c j
Exploring 3 S 6–7 Classwork 1, 2, 3, 4, 5, 6, 7, 8 Lit (RR, DS), ICT (WP, PS) 3a 3c, 3e c
Exploring 4 M/S/C 4 Classwork 2 3c
Exploring 5 M/S/C 4–5 Practical 5 Num (M, C, B), PLTS (Ie) 1b 1a, 1b, 1c, 2a, 2b
3c a
Exploring 6 M/S/C 4–8 Classwork 1, 2, 5, 7, 8, 9 Lit (RR), ICT (IR), PLTS (Ie, Sm) 3c a, b
Explaining 1 M/S 6 Classwork 1, 2, 3, 4, 5, 7 3c j
Explaining 2 S 6 Classwork 6, 7, 8, 9 2b 3c, 3e d, j
Explaining 3 M/S 5–6 Classwork 4 2b 3c, 3e
Explaining 4 C 7–8 Classwork 9 3a 3c h, f
Explaining 5 M/S/C 4–8 Classwork 1, 2, 3, 4, 5, 6, 7, 8, 9 PLTS (Ep) 3c c, d, e, i, j
Plenary 1 M/S 5–6 Classwork 1, 2, 7 PLTS (Ct) 3c
Plenary 2 M/S 5 Classwork 2 PLTS (Rl) 3c j
Plenary 3 M/S 5–6 Classwork 1, 2, 3, 5 LIT (WF) 3c
Plenary 4 S 6 Classwork 7, 8, 9 LIT (WF) 3c
Plenary 5 M/S/C 4–8 Classwork 1, 2, 3, 4, 5, 6, 7, 8, 9 LIT (WF), PLTS (Ct) 3c
Homework 1 M 4 Homework 1, 2 3c
Homework 2 M 5 Homework 1, 2 3c
Homework 3 S 6 Homework 2, 3, 7, 8 3c d
Homework 4 C 8 Homework 5 Num (C) 3c
Homework 5 S 6 Homework 3, 6 LIT (RR, DS, EW), ICT (PS),PLTS (Ie, Sm)
3a 3c, 3e d
Keeping it balanced 8Ab
8Ab
Starters
1: Quick CheckAfl The Quick Check sheet provides a list of common foods, and
asks pupils to tick the main nutrients in each foodstuff. Pupils have 5 minutes to complete their sheets, then a class discussion can be held to compare opinions. If pupils are asked to complete the sheet in pencil, they can revisit it at the end of the topic and make any necessary corrections.
• Must: pupils simply draw in ticks to show the main nutrients in each food.
• Should: ask pupils to use two ticks for foods that contain a lot of a nutrient, and one tick for foods that only contain a little of it.
2: Foods true or falseAfl Starter 2 from the last topic can be used here if not already
used.
3: What’s a good diet?Ask pupils to look at their diet diaries if they were asked to do them in Homework 4 in the last topic. Ask them to look at the foods that they have eaten and say whether they think they have a healthy diet or not, and if not what could be done to improve their diets.
You can also use the information collected by pupils to discuss whether how they recorded what they ate was appropriate to the task and any conclusions made. Most pupils will not have noted down the exact amounts of food, and this makes it diffi cult to do a detailed, accurate analysis of diets.
4: ObesityObesity (being very overweight) has trebled in the last 30 years and now about 15% of children in the UK are obese. Share these facts with pupils and ask them to discuss in groups: a) why they think this has happened; and b) what can be done about it. After 10 minutes ask a spokesperson from each group to summarise the thoughts of the group.
Exploring tasks
1: What’s in our food? (AB/AT)Ask pupils to look through nutrition information panels to fi nd the answers to questions such as: ‘Which food contains the highest amount of fat?’ Pupils should be encouraged to frame their own questions.
Alternatively, the nutrition information on Skills Sheet 58 from Year 7 CHAP could be used. Or the AB spreadsheet link on page 10 opens What food contains – a spreadsheet containing this information.
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Bar charts could be plotted to show the levels of nutrients in different foods, or the foods rich in certain nutrients. The charts could be compared with any Venn diagrams prepared in the previous topic. They could be asked about the accuracy of their own experiments in relation to this, introducing the fact that food scientists use much more sensitive methods to determine the amounts of food substances in a food (to make sure that foods contain what they say they contain).
• Could: pupils use the spreadsheet alongside information panels taken from foods and current prices to answer questions such as: ‘Are high-protein foods more expensive than others?’; ‘What are good sources of protein in a vegetarian diet?’; ‘How does the nutrient content of pre-packaged meals compare with freshly cooked meals?’
Resources (per group)Nutrition information labels; Year 7 CHAP Skills Sheet 58. Optional: sheet of current food prices downloaded from the internet.
2: Food substance summaryAsk pupils to work in groups to write a summary page on one of thefood substances. They should include a food that contains a good source of the food substance and the role played by the food substance in the body. The pages could be brought together to makea booklet designed to be left out in, for example, a doctor’s surgery.
3: Media questionsGive groups of pupils access to food packaging, advertisements, scientifi c media reports and newspaper reports, using them to raise a series of questions.
Worksheets 8Ab(4) and 8Ab(5) could provide the focus for a class discussion on how science is reported in newspapers, or they can be used directly as secondary sources of information. Worksheet 8Ab(10) provides a way of covering some of these ideas if less time is available (or as a homework task).
One question could then be used as the basis of a small media-based research project. Before starting, pupils should be made aware that claims and theories are often biased depending on where they have come from. Suggested questions: ‘Are breakfast cereals good for you?’; ‘Are foods that have less fat always preferable?’; ‘Can eating too much salt harm you?’; ‘What diets do athletes follow when they are in training?’; ‘What foods would you advise someone to eat to reduce the chance of heart disease?’; ‘What should pregnant women make sure they eat enough of?’
Pupils should be asked about how confi dent they are of what they have discovered. They should also come to appreciate that scientifi c knowledge is not always complete, and interpreting the results of investigations using humans is often diffi cult.
Pupils could be asked to design a poster, a leafl et for a doctor’s surgery or organise a class debate about their researched question(s).
Resources (per group)Food packaging; food advertisements; scientifi c magazine/newspaper reports about food; Worksheets 8Ab(4), 8Ab(5), 8Ab(10).
4: Food wheelsUsing Worksheet 8Ab(6), pupils could construct a ‘food wheel’. There are many possibilities on how to fi ll this in. Some suggestions are listed below.
• Must: nutrient types on the outer ring of wheel 2 and a good source of each on the inner one.
• Should: nutrient types on the outer ring of wheel 2 and what they are used for on the inner one.
• Could: ask pupils to research E numbers and put the E numbers on the outer ring and their names on the inner ring. Pupils could be challenged to think up their own ideas on what to put on the wheels and to make more than one wheel.
Pupils are asked to make holes in their wheels using scissors and Plasticine®. Some teachers may wish to do this themselves.
Resources (per pupil)Worksheet 8Ab(6); scissors; brass ‘butterfl y’ paper fastener; Plasticine® lump.
5: Practical: Energy in foodExploring 1 (Energy in food) from Topic 7Id is also suitable for use here. Various foods are burnt to compare energy contents.
6: Research workAsk pupils to use books and/or the internet to fi nd out about diet and dietary problems. Ask pupils to produce a list of key points as their report.
• Must: pupils research the nutrients needed by another named mammal and the range of foods it eats.
• Should: pupils research defi ciency diseases (e.g. rickets); or the problems of a vegan diet; or the work of a food scientist.
• Could: pupils research diseases that require special diets (e.g. coeliac disease, phenylketonuria).
ResourcesLibrary/internet access.
Explaining tasks
1: Pupil’s Book pages 10–11 (AT/AB)Worksheet 8Ab(1) is the Access Sheet.
• The AT video link on page 10 opens Changing diets – in which Dr Jason Halford from the Kissileff Laboratory for the study of Human Digestive Behaviour, at the University of Liverpool, talks about the current recommendations for a healthy diet.
• The second AT presentation link on page 10 opens The food pyramid 1 – where pupils take it in turns to drag food items into the correct places on a food pyramid.
• The AB document link on page 10 opens The food pyramid 2 – in which pupils use food icons to create their own food pyramid using a word processing program.
• The AB spreadsheet link on page 10 opens What food contains (see Exploring 1).
• The AT video link on page 11 opens Recommended amounts – in which Emma Boyland talks about GDAs.
• The AB spreadsheet link on page 11 opens What’s in it? – a spreadsheet containing the same data as table C, with questions to answer using that data. Questions 4, 5 and 7 could also be answered using this spreadsheet.
2: Pupil’s Book page 12 (AT/AB)Worksheet 8Ab(2) is the Access Sheet.
• The fi rst AB document link opens Balanced diet – in which pupils examine the food eaten by someone during the course of a day and write a short report on how balanced the diet was for that day.
• The second AT video link opens Food and fashion – in which Dr Jason Halford explains how advertising and fashion could cause eating problems in some people.
8Ab Keeping it balanced
8Ab
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3: What effect do images have?Show pupils a range of adverts that encourage us to eat fatty/junk foods or make us feel overweight (e.g. many fashion shoots). Show pupils the adverts in turn (it’s a good idea to scan them if you can and display on an interactive whiteboard). Ask pupils what the advert or image makes them feel like. Point out that the adverts for the fatty foods all feature healthier-than-normal looking people who are undoubtedly thin and very active. Photos from fashion shoots often feature very thin people who are very good looking – helping to form the link in some people’s minds that in order to be attractive you have to be very thin. If you can, show pupils photos that have been obviously Photoshopped to make people look younger/more attractive. This is reasonably easy to do with adverts for fi lms featuring older movie stars (e.g. Robert Redford on the poster for the fi lm Lions for Lambs). Encourage pupils to make the connection that what they see in the media is not necessarily real life.
Resources (per group)Range of adverts for fatty/junk foods.
4: Pupil’s Book page 13 (AT/AB)Worksheet 8Ab(3) is the Access Sheet.
• The AT video link opens Diabetes – in which Dr Jason Halford explains some current thinking on why more people are developing type II diabetes.
• The AB spreadsheet link opens Diabetes rates – a spreadsheet in which pupils construct a line graph to show the trends in the number of people diagnosed with diabetes in the last 50 years, together with some questions.
5: Visit from a nutritionistInvite a nutritionist to talk to the class about balanced diets. They should be asked to talk not only about diets but also about their career and what they do. Encourage pupils to do some background research and to think of some questions to ask before the visit.
Plenaries
1: Thinking about balanced diets (AT)Afl Use the following thinking skills questions as a plenary.
• PMI: school meals should always provide a balanced diet. (Possible answers: P – pupils would stay healthy; M – it might restrict the choice of food; I – is it possible to do this and still keep the meals interesting?)
• PMI: there are too many different foods to choose from when you go shopping. (Possible answers: P – it’s always good to have lots of choice; M – you may not choose the right ones for a balanced diet, it takes longer to shop; I – would it help to make a list fi rst?)
• CAP: not everyone eats enough vegetables. (Possible answers: some people can’t eat vegetables for medical reasons; children are often fussy eaters; not everyone knows that vegetables are good for you, vegetables are not available in some very poor regions or regions hit by natural disasters.)
• CAP: it is hard for some people to buy the foods that they need. (Possible answers: some people don’t live near large supermarkets; some people can’t afford to buy much food; healthy foods are more expensive than ‘junk’ food.)
• OOO: vitamins, starch, sugars, fats. (Possible answers: vitamins do not provide energy and are only needed in small amounts; fats are the only ones used for insulation.)
• OOO: meat, fi sh, vegetables, nuts, dairy products. (Possible answers: vegetables are the only things that contain fi bre and lots of vitamins and minerals, or the things that do not contain much fat.)
The fi rst AT presentation link on page 12 opens Thinking about balanced diets – a PowerPoint presentation version of this task.
2: Quick CheckAfl The Quick Check sheet provides a list of common foods, and
asks pupils to tick the main nutrients in each foodstuff and may have been used in Starter 1. Revisit Starter 1, asking pupils to correct their answers. Extend the task by asking pupils to colour in red the foods that are important for energy, green for foods that are important for health and blue for foods that are important for growth and repair.
ResourcesColoured pencils; Quick Check sheet 8Ab.
3: I can… cloze exercise AB/ATAfl The AB document link on page 11 opens a summary cloze
exercise covering the material on pages 10–11. There is also an AT presentation version with answers.
4: I can… cloze exercise AB/ATAfl The second AB document link on page 12 opens a cloze
exercise covering the material on page 12. There is also an AT presentation version with answers.
5: Quiz designAsk pupils to design a quiz sheet about this topic (and the last) and swap their sheets with other pupils for them to answer. These could be done in the same format as the Quick Quiz (i.e. multiple choice), which will make any marking of correct/incorrect answers easier.
Homework tasks
1: Worksheet 8Ab(7) contains simple questions about balanced diets.
2: Worksheet 8Ab(8) contains questions about balanced diets. 3: Worksheet 8Ab(9) asks pupils to compare the diets of two
people, with questions on problems caused by poor diet. 4: Worksheet 8Ab(11) demands a lot of calculation work (to work
out the energy content of some foods). 5: Page 12 of the Pupil’s Book mentions different diets in different
cultures. Ask pupils to research a short presentation/report on what their families eat. Pupils should also ask adults with which they have contact about what they used to eat. They could compare this to their own diets and describe the main ways in which diets have changed over the years, commenting on whether this change is good, bad or a combination of both. Finished presentations/reports should also describe what balanced diets are and how people can ensure that they have balanced diets.
Keeping it balanced 8Ab
8Ab
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Pupil’s materials
Number and title Level Location Type Tasks
You’ve got guts Must/Should PB pp14–15 Classwork Explaining 1
8Ac Quick Check Must/Should ASP Classwork Plenary 2
8Ac Word Sheet Must/Should ASP Classwork Homework 4
8Ac(1) You’ve got guts Must CHAP Access Explaining 1
8Ac(2) A model small intestine 1 Must CHAP Practical Exploring 2
8Ac(3) Guts! Must CHAP Classwork Exploring 1, Plenary 4
8Ac(4) Digestive system parts Must CHAP Classwork Exploring 1
8Ac(5) In the gut 1 Must CHAP Homework Homework 1
8Ac(6) In the gut 2 Should CHAP Homework Homework 2
8Ac(7) The glycaemic index Could CHAP Homework Homework 3
8Ac You’ve got guts
8Ac
ObjectivesAll pupils must:
(1) recall that digestion is the breaking down of food (2) recall the positions, names and functions of the organs in the
digestive system(3) recall that teeth grind up the food. Correctly use the words anus, digestion, gullet, gut, large
intestine, rectum, small intestine, stomach. Most pupils should:
(4) describe the role of enzymes in digestion (5) describe what happens during ingestion, absorption and
egestion(6) explain how food is moved through the gut by muscular
contractions(7) describe a benefi t of bacteria in the gut. Correctly use the words absorption, contract, egestion,
elimination, enzyme, faeces, ingestion, insoluble, molecule, saliva, soluble.
Some pupils could:(8) recall that the muscular contractions of the gut are called
peristalsis(9) recall that the salivary gland releases saliva (10) explain why sugars from some carbohydrates take longer to
get into the blood than others. Correctly use the words peristalsis, salivary gland.
Topic notes• Targets for the topic can be accessed via the ActiveBook or
ActiveTeach from the link next to the initiator question. • Pupils will have met the idea of particles in Unit 7G What a waste!
but some may need help with the concept of a molecule, unless Unit 8F Materials and recycling has already been covered. At this stage it is suffi cient to say that food substances are made up of particles called molecules.
• The gullet is more properly called the oesophagus (a word not found in the pupils’ materials).
• The enzyme in saliva is called amylase and it chops up starch into a sugar (called maltose). The Pupil’s Book and worksheets simplify this slightly to imply that starch is turned into glucose directly.
Be prepared: 8Ac Explaining 3: bicycle inner tube, stone, tennis ball, sock, sheep lungs and oesophagus.
Exemplar topic plans
MUST
PB pages 14–15
Starter 1Exploring 2 (set up)Exploring 1 (matching)Explaining 1Exploring 1 (correcting)Exploring 2 (recording)Plenary 3Homework 1
SHOULD
PB pages 14–15
Starter 3Explaining 1Exploring 2 (set up)Explaining 2Explaining 3Exploring 2 (recording)Explaining 4Plenary 2Homework 2
COULD
PB pages 14–15
Starter 3Explaining 1Exploring 2 (demo set up)Exploring 3Exploring 2 (recording)Explaining 2Explaining 3Plenary 3Homework 3
SHOULD 2 Yr KS3*
PB pages 14–17
8Ac Starter 38Ac Explaining 18Ad Explaining 18Ad Exploring 28Ad Explaining 2 8Ad Plenary 3 8Ad Homework 3
*This table is repeated in 8Ad.
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Topic task plannerUse these tasks to adapt the exemplar topic plans to your own needs. Many tasks can be adapted to become different types (e.g. ‘starter’ rather than ‘exploring’). AT or AB/AT at the top of a task means that the task depends on using the ActiveBook and/or ActiveTeach; where these symbols appear in brackets it indicates that the task can be carried out with or without their use.Also consider using one of the plenaries from the previous topic as a starter task in this topic.
Task Level NC Type Objectives Skills 1 KC 2 KP 3 RC 4 CO
Starter 1 M 4 Classwork 2 3a, 3c
Starter 2 M 4 Classwork 2 Lit (WF) 3a, 3c
Starter 3 M 5 Classwork 1 1a 3c
Exploring 1 M 5 Classwork 1, 2 3c
Exploring 2 M 5 Practical 1, 2 PLTS (Ie) 1a 1a, 1c 3c a
Exploring 3 S/C 6–8 Classwork 1, 2, 3, 6 ICT (IR), LIT (RR) 3c a, b
Explaining 1 M/S 4–7 Classwork 1, 2, 3, 4, 5, 6, 8 3c
Explaining 2 M 4 Classwork 2 3a, 3c
Explaining 3 S/C 7–8 Practical 5, 7 1a 3c
Explaining 4 M/S/C 5–8 Practical 3 1a 3c
Plenary 1 M/S 5–6 Classwork 1, 2, 3, 4 PLTS (Ct) 3a, 3c
Plenary 2 M/S/C 5–6 Classwork 1, 2, 3, 4, 5, 7, 8 PLTS (Ct) 3a, 3c
Plenary 3 M/S 5–7 Classwork 1, 2, 3, 4, 5, 6 Lit (WF) 3c
Plenary 4 M 4–5 Classwork 1, 2, 3, 4, 5 3c
Homework 1 M 4–5 Homework 1, 2, 3 3c
Homework 2 S 6–7 Homework 1, 2, 3, 4, 5, 6 1a 3c
Homework 3 C 8–EP Homework 3, 9 Lit (EC) 2a 3c
Homework 4 M/S 4–7 Homework 1, 2, 3, 4, 5, 6 Lit (EW, WF) 2a 3c
You’ve got guts 8Ac
8Ac
Starters
1: What’s in the gut?Pupils will have met the names of some parts of the digestive system in KS2, although they will not specifi cally have studied digestion. Ask pupils what we need food for and what they think happens to their food when they have eaten it. Explain that food passes through a long tube in their body called the gut. Ask pupils to name any parts of the gut that they know.
2: Order the partsWrite these words up on the board: anus, gullet, intestines, mouth, stomach. Ask pupils what they all have in common. Establish that these are organs in the gut and then ask pupils to put the organs in the order in which a piece of fi bre (indigestible food) will go through them.
3: A bag of orangesShow pupils a nylon mesh bag, such as one that oranges are sold in. Ask how the oranges could be got out of the bag without cutting the bag. Most will be able to see that the oranges need to be cut into smaller pieces. Explain that this is a model for what happens to food in order for our bodies to use it and that this takes place in the digestive system.
Exploring tasks
1: Gut card sortWorksheet 8Ac(4) provides a set of cards containing the names of organs in the digestive system, drawings of the organs and statements of the functions of the organs. Ask pupils to match the cards up.
To extend this activity, give pupils Worksheet 8Ac(3) and ask them to staple the groups of three cards onto this worksheet using label lines to link them to specifi c parts of the gut.
Resources (per pupil)Worksheets 8Ac(3), 8Ac(4); access to stapler.
2: Practical: A model small intestineVisking tubing will let small, soluble sugar molecules through it, but not large starch molecules. This practical will demonstrate that starch molecules are too big to pass through the tiny holes in the wall of the tubing. Worksheet 8Ac(2) contains the instructions. This model is built upon and extended in Topic 8Ad, where enzymes are used (see Topic 8Ad Exploring 2).
The tubing should be soaked in water for about 15 minutes to make it easier to handle. A 15 cm length is cut and one end is tied. 5 cm3 of starch suspension is added. The top end of the tubing is tied and the outside of the tube is washed to remove any spilled starch solution. The tubing is secured inside a boiling tube with an elastic band and the boiling tube fi lled with water (preferably warm, at about 37 °C). The boiling tube is left for 20 minutes (preferably in a water bath at about 37 °C). The water from the boiling tube surrounding the tubing can then be tested for starch using iodine solution (a blue–black colour denotes the presence of starch). It should be found that no starch has diffused through the tubing.
Iodine solution stains skin and may irritate the eyes.
Resources (per group)Visking tubing; beaker; boiling tube; elastic band; eye protection; iodine solution (1 g iodine in 100 cm3 1.0 mol dm–3 potassium iodide solution); 3 pipettes; starch suspension; syringe; well tray or spotting tile; access to warm water bath (37 °C); access to clean warm water (37 °C); Worksheet 8Ac(2).
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3: Research workAsk pupils to use books and/or the internet to fi nd out about the differences in the guts and teeth of herbivores and carnivores, due to their differing diets.
• Should: ask pupils to fi nd out the differences.• Could: ask pupils to fi nd the differences and the explanations for
these differences.
ResourcesLibrary/internet access.
Explaining tasks
1: Pupil’s Book pages 14–15 (AT/AB)Worksheet 8Ac(1) is the Access Sheet.
• The fi rst AT video link on page 14 opens Digestion and advertising – in which Dr Jason Halford talks about probiotics.
• The AT animation link on page 14 opens The digestive system – a drag and drop labelling activity of digestive system.
• The third AT presentation link on page 15 opens Food molecules – a presentation showing a model for how we can think about small molecules being able to get into the cells of the small intestine (be absorbed) and large molecules that cannot.
2: Model torsoShow pupils a model torso, indicating where the parts of the digestive system are and what they do. Explain that this is a much closer approximation to what is actually found inside us than the diagrams found in the pupils’ materials. Ask pupils why diagrams have been drawn in the pupils’ materials rather than real representations of the organs. Explain to pupils that diagrams are ‘models’ – ideas used to help us understand how something occurs. Ask pupils to suggest some advantages and disadvantages of using models. Elicit the main ideas that they aid understanding but can be too simplistic.
ResourcesModel torso.
3: Practical: Peristalsis (demonstration)Explain that the movement of food along the gut is caused by waves of muscle contractions – known as peristalsis. This is simply demonstrated using a bicycle inner tube and a stone of slightly greater diameter. Soak the inner tube in water containing washing up liquid. Without rinsing the tube, insert the stone. Use your thumb and forefi nger to form a ‘circle of muscle’ around the tube above the stone. By moving your forefi nger along the thumb, the diameter of the inner tube can be made to get smaller, pushing the stone down the tube. Pupils could be asked to say what the inner tube, thumb and forefi nger and stone represent in this model. The demonstration can also be done with a sock and a tennis ball.
Lungs from sheep with the gullet (oesophagus) still attached may be available from a butcher, or it may be possible to order a length of oesophagus separately. These could be used in conjunction with the demonstration.
Resources (for demonstration)Bicycle inner tube; washing up liquid solution; stone of similar diameter to the tube (or tennis ball and large sock). Optional: sheep lungs and oesophagus.
4: Practical: Absorption (demonstration)• Must: A model, such as dried peas and sand in a sieve, can be
used to think about the way in which smaller molecules will pass through the small intestine wall whereas larger ones will not.
• Should: Many pupils will be familiar with the idea of soluble
things being able to pass through fi lter paper, whereas insoluble things can not. This is basically true for substances getting into the body. A quick demonstration might include mixing some starch with water and fi ltering it, and comparing this with sugar solution. If you have used a number of the models suggested above (e.g. Exploring 2, Explaining 1), ask pupils to describe the strengths and weaknesses of each model.
• Could: Show pupils the sieve model and the fi ltering model and remind them of the other models they have seen. Ask pupils to select the model that best represents what happens in the gut. They should justify their selection.
Resources (for demonstration)Must: coarse sieve; fi ne sand; dried peas.Should: fi lter paper; fi lter funnel; retort stand; beaker; sugar; starch; water.
Plenaries
1: Thinking about the digestive system (AT)Afl Use the following thinking skills questions as a plenary.
• PMI: the gut should be longer than about 8 metres. (Possible answers: P – this would give the food longer to be completely digested and absorbed; M – it would be diffi cult to fi t it all in; I – how do people who have lost some of their gut cope?)
• OOO: gullet, liver, small intestine, large intestine, stomach. (Possible answers: liver since food passes through all the other parts except this; stomach is the only place that is very acidic; gullet does not contribute to the digestion of food.)
• CAP: carbohydrate isn’t absorbed by someone’s small intestine. (Possible answers: the person hasn’t eaten any carbohydrate; the carbohydrate that has been eaten is all insoluble and hasn’t been digested yet; the person’s small intestine is not working properly; enzymes have not been released to break down the carbohydrate.)
The third AT presentation link on page 14 opens Thinking about the digestive system – a PowerPoint presentation version of this task.
2: Quick CheckAfl The Quick Check sheet for this topic provides a ‘connectives’
exercise to revise the content of the topic. Connectives are sentences for pupils to complete in their own words, using one of the following words: ‘and’, ‘because’, ‘but’, ‘however’, ‘such as’, ‘therefore’, ‘which’, ‘to’, ‘so’. The worksheet could simply be copied onto an OHP slide, displayed directly on an interactive whiteboard from the CHAP CD-ROM or the sentence starts could be written on the board. Pupils can be given 5 minutes to complete their sentences, and then they can share their ideas with the class. The obvious answers to most questions involve using ‘because’ as a connective, but more able pupils should be encouraged to use the other connectives if they can.
• Must: pupils write sentences to complete phrases 1–5.• Should: pupils write sentences to complete phrases 1–10.• Could: pupils write two sentences to complete each of
phrases 1–10.
3: I can… cloze exercise AB/ATAfl The AB document link on page 15 opens a cloze exercise
covering the material on pages 14–15. There is also an AT presentation version with answers.
4: What does whatWorksheet 8Ac(3) provides a large drawing of the gut that canbe copied onto an OHP slide. Or display it directly from the CHAP CD-ROM on an interactive whiteboard. Point to the parts and ask pupils to identify the different parts and explain what goes on there.
8Ac You’ve got guts
8Ac
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Homework tasks
1: Worksheet 8Ac(5) has simple questions on the gut and digestion.
2: Worksheet 8Ac(6) has questions on the gut and digestion, and using a model to understand the action of enzymes.
3: Worksheet 8Ac(7) has a comprehension-style exercise on the glycaemic index (GI).
4: Ask pupils to use the words on the Word Sheets for Topics 7Aa–7Ac to help them to produce 10 questions for a verbal test. These questions can be used in Starter 1 of the next topic.
You’ve got guts 8Ac
8Ac
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Pupil’s materials
Number and title Level Location Type Tasks
Break down Must/Should PB pp16–17 Classwork Explaining 1
8Ad Quick Check Must/Should ASP Classwork Plenary 2
8Ad Word Sheet Must/Should ASP Classwork
8Ad(1) Break down Must CHAP Access Explaining 1
8Ad(2) Amylase action Must CHAP Practical Exploring 3
8Ad(3) Amylase in action Should CHAP Practical Exploring 3
8Ad(4) A model small intestine 2 Should CHAP Practical Exploring 2
8Ad(5) Enzymes and digestion Must CHAP Classwork Exploring 1
8Ad(6) Flicker-book digestion Should CHAP Classwork Exploring 6
8Ad(7) Digestion 1 Must CHAP Homework Homework 1
8Ad(8) Digestion 2 Should CHAP Homework Homework 2
8Ad(9) Saliva and starch Should CHAP Homework Homework 3
8Ad(10) When enzymes attack Should CHAP Homework Homework 4
8Ad(11) More digestive enzymes Could CHAP Homework Homework 5
8Ad Break down
8Ad
ObjectivesAll pupils must:(1) recall the functions of the stomach and small intestine in
digestion(2) describe how digestion is helped by digestive juices
(including saliva), which contain enzymes(3) describe how a model can be used to think about how
something works. Correctly use the words digestive juice, enzyme, model,
saliva.Most pupils should:
(4) describe how enzymes work best at certain temperatures and pHs
(5) describe how starch is split into glucose during digestion(6) evaluate a model.
Some pupils could:(7) explain how bile helps digestion (8) recall the end products of protein and fat digestion(9) explain why protein from a variety of sources is needed in
the diet. Correctly use the words amino acid, bile, emulsion,
essential amino acid, fatty acid, glycerol, pancreas.
Topic notes• Targets for the topic can be accessed via the ActiveBook or
ActiveTeach from the link next to the initiator question. • Digestive enzymes all break food substances into simpler
molecules. Note, however, that some enzymes build up substances from simpler components.
• Ensure that pupils understand that enzymes do not look like pairs of scissors, but that is a helpful model to think about how they work.
Be prepared: 8AdExploring 2 and 3: pancreatin (or non-bacterial amylase).Exploring 4: bread.Exploring 5: a large open space (you may wish to book the school hall) and possibly a camcorder.Explaining 3: fresh liver.
Exemplar topic plans
MUST
PB pages 16–17
Starter 1Explaining 1Exploring 3Explaining 2Plenary 3Homework 1
SHOULD
PB pages 16–17
Starter 3Explaining 1Exploring 3Explaining 2Plenary 3Homework 3
COULD
PB pages 16–17
Starter 2Explaining 1Exploring 3Explaining 2Plenary 1Homework 4
SHOULD 2 Yr KS3*
PB pages 14–17
8Ac Starter 38Ac Explaining 18Ad Explaining 18Ad Exploring 28Ad Explaining 28Ad Plenary 38Ad Homework 3
*This table is repeated in 8Ac.
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Topic task plannerUse these tasks to adapt the exemplar topic plans to your own needs. Many tasks can be adapted to become different types (e.g. ‘starter’ rather than ‘exploring’). AT or AB/AT at the top of a task means that the task depends on using the ActiveBook and/or ActiveTeach; where these symbols appear in brackets it indicates that the task can be carried out with or without their use.Also consider using one of the plenaries from the previous topic as a starter task in this topic.
Task Level NC Type Objectives Skills 1 KC 2 KP 3 RC 4 CO
Starter 1 M/S 4–7 Classwork previous topics 3a, 3c, 3e
Starter 2 C 4–7 Classwork previous topics 3a, 3c, 3e
Starter 3 S 7 Classwork 2, 4 PLTS (Ct) 3c
Starter 4 M 5–6 Classwork 2, 3 1a 3c a
Exploring 1 M 5–6 Classwork 1, 2 3a, 3c
Exploring 2 S 6–7 Practical 1, 2, 3, 5, 6 1a, 1b 1a, 1c, 2a, 3a 3c a
Exploring 3 M/S/C 4–7 Practical 1, 2, 4, 5 PLTS (Ie, Ep, Tw) 1a, 1b 1a, 1b, 1c, 2a, 2b, 3a 3c a
Exploring 4 S 6 Practical 2, 5 1c, 2a 3c a
Exploring 5 S 7 Classwork 2, 4, 5 ICT (MS), PLTS (Tw, Ct) 1a 3a 3c f, i, k
Exploring 6 S 7 Classwork 6 1a 3c
Explaining 1 M/S/C 5–7 Classwork 1, 2, 3, 4, 5, 6 1a 1c 3c a, c
Explaining 2 M/S 6 Classwork 2, 3, 5, 6 1a 3c
Explaining 3 M/S 6 Practical 2 3c c
Plenary 1 S 6–7 Classwork 1, 2, 4, 5 PLTS (Ct) 1a 3c
Plenary 2 M/S 5–6 Classwork 1, 2, 4, 5 3c
Plenary 3 M/S 5–7 Classwork 1, 2, 4 Lit (WF) 3c
Plenary 4 S 7 Classwork 2, 4 3c
Homework 1 M 5 Homework 1, 2 Lit (WF, EW) 3a, 3c
Homework 2 S 6 Homework 1, 2, 4, 5 3a, 3c
Homework 3 S 7 Homework 3, 5, 6 2a, 3a 3c
Homework 4 C 8 Homework 1, 2, 4, 5, 7, 8, 9 Lit (EC) 3a, 3c
Break down 8Ad
8Ad
Starters
1: Quiz timeAfl Carry out a verbal quiz to revise the work of earlier topics
using your own questions (and, if pupils have done Homework 4from the last topic, their questions). Ask all the pupils to stand up, and ask each one in turn a question – they can sit down when they have answered a question correctly. This activity can be differentiated by giving more able pupils harder questions. A list of suitable questions and their answers is given below. It does not really matter if the same question is asked more than once.
Question AnswerWhat does diet mean? the food we eatWhat happens if our bodies do
not get enough fi bre?constipation or blocked
intestinesWhat chemical is used to test for
starch?iodine solution
How can you test for fat? It leaves a greasy mark on paper.
Name two foods that contain a lot of fat.
any two from nuts or types of dairy produce
Which foods are best for vitamins and minerals?
fruit and vegetables
Why do we need protein in our diets?
to make new cells and repair our bodies
Why do we need fats? as an energy store and to insulate our bodies
What disease can be caused by eating too much fat?
heart disease
Where is saliva made? in the mouth
What is added to food in the stomach?
strong acid (and enzymes to digest proteins)
What happens to food in the large intestine?
Water is absorbed from it.
Name a nutrient that we only need in small amounts.
vitamins or minerals
Name a liquid we need that is not a nutrient.
water
What type of nutrient is starch? carbohydrateName two foods that contain a
lot of fi bre.any two from cereals, bread,
riceName two foods that contain a
lot of protein.any two from meat, fi sh, nuts,
dairy produceWhy do we need carbohydrates? for energyWhat is a balanced diet? a diet that contains all the
nutrients we needWhat happens if you do not eat
enough food?You feel weak and tired.
How is food moved along the gullet?
Muscles in the wall of the gullet contract and push it along.
Where are small molecules absorbed into the body?
small intestine
2: Wrong answer quizPrepare two A4 pieces of card, one saying ‘Right’ and one saying ‘Wrong’. If you hold up the ‘Wrong’ card, pupils have to give a deliberately wrong answer to a question, but an answer that could be right (e.g. when asked to name a nutrient, giving a response such as ‘water’, rather than the name of a completely unrelated substance). This will help to keep pupils on their toes. Use the questions in Starter 1 and/or your own questions and/or those prepared by pupils in Homework 4 from the last topic.
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3: Enzymes brainstormAsk pupils to write down phrases that come to mind about the word ‘enzyme’. Ask pupils to submit their ideas and write a short list of them on the board. Ideas should include ‘made in the body’, ‘used to digest food’, ‘found in the small intestine’. Save this list for use in Plenary 2.
4: Model small intestine starterIf pupils carried out Exploring 2 in the last topic, ask them to say what they discovered. Ask how they think parts of the starch inside the Visking tubing could get into the water outside. Introduce them to or remind them of the idea that enzymes break things down into small, soluble molecules. This will lead nicely into Exploring 2.
Exploring tasks
1: Digestion card sortWorksheet 8Ad(5) contains drawings and captions showing the basic stages of digestion and absorption. Pupils need to match each drawing with the correct caption and then put the drawing/caption pairs in the order in which they happen.
2: Practical: A model small intestine 2This is a continuation from Exploring 2 in Topic 8Ac. The set-up is the same, except that enzymes are added to the starch suspension. This is 1 cm3 of 0.5% pancreatin (a mixture of enzymes that will convert starch to small sugar molecules – the pupils can be told that it is the same as the mixture of enzymes found in the small intestine). The water from the boiling tube surrounding the tubing can then be tested for starch and glucose. It should be found that glucose has diffused through the tubing whereas the starch has not. If you do this as a teacher demonstration, the subtle addition of 1 cm3 of 5% glucose solution to the water is an effective cheat! Full instructions are given on Worksheet 8Ad(4).
Eye protection should be worn. Iodine solution stains skin. Some pupils may be allergic to enzymes. When using the enzyme solutions avoid skin contact (and the rubbing of eyes). Wash hands at once if contact is made.
Resources (per group)Beaker; Benedict’s solution; boiling tube; Bunsen burner; digestive juice solution (0.5% pancreatin); 2 elastic bands; eye protection; gauze; heatproof mat; iodine solution (1 g iodine in 100 cm3 1.0 mol dm–3 potassium iodide solution); 4 pipettes; 1% starch suspension; tripod; 2 syringes; 2 test tubes; 15 cm Visking tubing (pre-soaked for 15 minutes in water); water bath (set to 37 °C); Worksheet 8Ad(4).
3: Practical: Amylase actionThis practical can be used to carry out an AT1 Investigation. A set of level descriptions is provided on pages 33–35 of the ASP. The use of either Worksheet 8Ad(2) or 8Ad(3) will prevent the assessment of some strands (notably planning).
Three test tubes containing 5 cm3 of 1% starch suspension can be set up, each at different temperatures in water baths. A further three test tubes each containing 1 cm3 of 0.5% pancreatin (or 1% amylase solution but see note in resources) are also placed at the same temperatures. The tubes are left for 5 minutes to allow the contents to reach the required temperature and then the pancreatin or amylase is added to the starch suspension.
At regular intervals (e.g. every 2–5 minutes) one drop of each of the starch enzyme mixtures is added to one drop of iodine solution in the wells of a spotting tile or well tray. A blue–black colour indicates the presence of starch. When the blue–black colour fails to appear, it is safe to assume that all the starch in that tube has been broken down. The amylase in pancreatin works best at around 37 °C (body
temperature). Other factors that affect the activity of amylase include the concentration of the amylase and the pH. For the latter, the starch and amylase should be added to 10 cm3 of buffer solution (see below). Alternatively, addition of dilute hydrochloric acid or sodium hydrogen carbonate solutions to the starch solution (prior to adding amylase) and testing with pH paper/meter will give a reasonable range of pHs to test. Amylase works best at about pH 7.
• Must: Worksheet 8Ad(2) deals only with the effect of temperature on amylase action. It should be noted that this worksheet assumes bacterial amylase is not being used (it does not have an optimum activity of 37 °C).
• Should: Worksheet 8Ad(3) is a sheet to help pupils plan the investigation.
• Could: pupils plan their investigations using only the initiators given in the Practical box on page 16 of the Pupil’s Book. Encourage pupils to think about the advantages and disadvantages of collating class results. They should think about what needs to be collected and how they would manipulate this secondary class evidence so that all the evidence was in the same format.
Eye protection should be worn.
4: Practical: Sweet breadThis simply involves chewing bread. If bread is chewed for 5–10 minutes, the taste becomes sweeter. Pupils could be asked to chew the bread, describe what happens and try to explain why this happens.
Ensure that this practical is not done in a lab and only in an area suitable for consuming food (e.g. dining hall or food technology room).
Resources (per pupil)Small piece of bread.
5: When enzymes attackWorksheet 8Ad(10) invites pupils to think up some visuals for a TV program to model how enzymes work. You may be able to get pupils to act out the model described on this sheet (a useful Thinking Skills VAKi activity – see Introduction, page 16). This activity also provides an opportunity for fi lm-making. Pupils should be aware that this is another example of a model being used to explain how digestion occurs and could be asked to discuss which of the models they have used is best and why.
Resources (per group)Iodine solution; 2 test tubes; test tube rack(s); two 5 cm3 syringes; pipette; 0.5% pancreatin solution or 1% amylase solution (making sure that its peak activity is at 37 °C – i.e. not bacterial amylase); 1% starch suspension; pH paper/meter; stopclock; eye protection; access to water baths at various temperatures (one should be near body temperature, 37 °C); thermometers (one for each water bath); access to ice; access to water for washing pipette; access to distilled water and various concentrations of acids and alkalis (e.g. 0.2 mol dm–3 and 0.1 mol dm–3 sodium carbonate, 0.2 mol dm–3 and 0.1 mol dm–3 hydrochloric acid). Worksheets 8Ad(2), 8Ad(3). Citric acid buffer solutions:
pH Volume of 0.2 mol dm–3
Na2HPO4
Volume of 0.1 mol dm–3
citric acid
3 20.55 79.454 38.55 61.455 51.50 48.506 63.15 36.857 82.35 17.658 97.25 2.75
Resources (per group)Iodine solution; 2 test tubes; test tube rack(s); two 5 cm3 syringes; pipette; 0.5% pancreatin solution or 1% amylase solution (making sure that its peak activity is at 37 °C – i.e. not bacterial amylase); 1% starch suspension; pH paper/meter; stopclock; eye protection; access to water baths at various temperatures (one should be near body temperature, 37 °C); thermometers (one for each water bath); access to ice; access to water for washing pipette; access to distilled water and various concentrations of acids and alkalis (e.g. 0.2 mol dm–3 and 0.1 mol dm–3 sodium carbonate, 0.2 mol dm–3 and 0.1 mol dm–3 hydrochloric acid). Worksheets 8Ad(2), 8Ad(3). Citric acid buffer solutions:
pH Volume of 0.2 mol dm–3
Na2HPO4
Volume of 0.1 mol dm–3
citric acid
3 20.55 79.454 38.55 61.455 51.50 48.506 63.15 36.857 82.35 17.658 97.25 2.75
8Ad Break down
8Ad
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A large open area will be needed if pupils act out the model.
ResourcesCamcorder; Worksheet 8Ad(9).
6: Flicker bookWorksheet 8Ad(6) provides the pieces for which to make a fl icker-book that shows a model of digestive enzyme action.
ResourcesStapler; Worksheet 8Ad(6).
Explaining tasks
1: Pupil’s Book pages 16–17 (AT/AB)Worksheet 8Ad(1) is the Access Sheet.
• Must: omit the last section on models of enzyme activity.• The fi rst AT animation link on page 16 opens Model small
intestine animation – showing what happens in the model small intestine. Note that this is a model and what actually happens is very much more complex.
• The second AT animation link on page 16 opens Enzymes – showing the action of enzymes in various parts of the digestive system.
• The AB document link on page 16 opens Enzyme optimum graphs – a set of graphs on enzyme optimums that pupils need to draw simple conclusions from.
• Could: introduce pupils to the idea of extra cellular reactions (those that take place outside cells) and how these reactions are essential for the seven life processes (e.g. providing material for respiration and growth).
• The AT animation link on page 17 opens Enzyme models – in which the two models presented to represent enzyme action are animated.
2: Enzyme (demonstration) Use molecular models to represent a long food molecule. Illustrate the action of enzymes by breaking up the ‘molecule’, perhaps by comparing the enzymes to a pair of scissors.
Having watched the demonstration, pupils could be asked to draw a series of diagrams showing what happens when large molecules are digested by enzymes. They should be asked to annotate their drawings with text to say what their drawings are illustrating.
ResourcesMolecular modelling kit.
3: Practical: Catalase (demonstration)Hydrogen peroxide is poisonous in the body but is a by-product of some reactions in the body. Catalase is an enzyme that quickly destroys the hydrogen peroxide. Liver contains large amounts of catalase, which makes for a memorable demonstration of an enzyme in action (albeit not a digestive enzyme). Place a small piece of liver in a large beaker and add a pipette-full of 3% hydrogen peroxide. A fi zzing will be observed. Point out to pupils that this fi zzing would never occur in the body but does here because the hydrogen peroxide used is very strong.
Resources (for demonstration)Fresh liver; 3% hydrogen peroxide solution; large beaker.
Plenaries
1: Thinking about enzymes and digestion (AT)Afl Use the following thinking skills questions as a plenary.
• PMI: enzymes in humans work best at 37 °C. (Possible answers: P – this is body temperature; M – if the body temperature is higher or lower than normal, enzymes won’t work properly; I – how does human body temperature compare with that of other mammals?)
• PMI: using a model small intestine is a good way of showing what happens in the gut. (Possible answers: P – it is a simple model and easy to understand; M – it doesn’t show exactly what happens; I – what happens when people damage their small intestine?)
• CAP: starch is not being broken down in Miles’ small intestine. (Possible answers: he hasn’t eaten any starch; he’s eaten something that stops the ‘starch enzymes’ working; his body can’t produce ‘starch enzymes’.)
• CAP: in the model small intestine, glucose is not found in the water outside the tubing. (Possible answers: no enzyme was added to the tubing; no starch was added to the tubing; it’s too cold for the enzyme to work; it’s the wrong pH for the enzyme to work; the experiment has not been left long enough.)
The fi rst AT presentation link on page 17 opens Thinking about enzymes and digestion – a PowerPoint presentation version of this task.
2: Quick CheckAfl Pupils use the Quick Check sheet to create a labelled diagram
to summarise the material in this unit.
3: I can… cloze exercise AB/ATAfl The AB document link on page 17 opens a cloze exercise
covering the material on pages 16–17. There is also an AT presentation version with answers.
4: More enzymesUse Starter 3, or remind pupils of the list of phrases they came up with when doing Starter 3, and ask them to add to the list. They should be able to add additional places where digestive enzymes are found and the fact that enzymes are affected by pH and temperature.
Homework tasks
1: Worksheet 8Ad(7) has simple questions on digestion and absorption.
2: Worksheet 8Ad(8) has questions on digestion and absorption.3: Worksheet 8Ad(9) is a data interpretation exercise on an
experiment using saliva and starch. 4: Worksheet 8Ad(10) asks pupils to demonstrate their
understanding of digestion.5: Worksheet 8Ad(11) is a comprehension exercise looking at
digestive enzymes in more detail.
Break down 8Ad
8Ad
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Pupil’s materials
Number and title Level Location Type Tasks
In the blood Must/Should PB pp 18–19 Classwork Explaining 1
Health claims Must/Should PB p 20 Classwork Explaining 3
8A Quick Quiz Must/Should ASP Classwork Plenary 3
8A Quick Quiz Answer Sheet Must/Should ASP Classwork Plenary 3
8A End of Unit Test Must/Should ASP Classwork Plenary 5
8A Summary Sheets Must/Should ASP Homework
8A Level Ladder Must/Should ASP Classwork Plenary 8
8Ae Quick Check Must/Should ASP Classwork Plenary 2
8Ae Word Sheet Must/Should ASP Homework
8Ae(1) In the blood Must CHAP Access Explaining 1
8Ae(2) Food traffi c lights Must CHAP Classwork Exploring 3
8Ae(3) Food for living Must CHAP Homework Homework 1
8Ae(4) Digestion crossword Should CHAP Homework Plenary 4
8Ae(5) Food absorption Should CHAP Homework Homework 2
8Ae(6) Eat to live Could CHAP Homework Homework 3
8Ae(7) Surface area Could CHAP Homework Homework 4
SS41 Debates and speaking Must/Should Year 7 CHAP Skills Sheet Exploring 5
8Ae In the blood
8Ae
ObjectivesAll pupils must:
(1) describe how digested food is carried around the body to the cells
(2) recall that the heart and blood vessels make up the circulatory system
(3) recall that digested food is used to make new substances(4) describe how digested food can produce energy for cells(5) consider the effects of words used to describe foods on their
packets. Correctly use the words blood vessel, circulatory system,
health claim, heart, respiration. Most pupils should:
(6) describe how the small intestine is adapted to absorb substances quickly
(7) recall the passage of digested food substances from the gut into the blood
(8) recall that arteries carry blood away from the heart and veins carry blood to the heart
(9) explain how cells get food from tissue fl uid which leaks out of capillaries.
Correctly use the words artery, capillary, tissue, tissue fl uid, vein, villus.
Some pupils could: (10) describe the function of microvilli. Correctly use the word microvillus.
Topic notes• Targets for the topic can be accessed via the ActiveBook or
ActiveTeach from the link next to the initiator question.• Misconception: Pupils often think that the digested food is
somehow picked up by blood cells (like oxygen is). This is not the case – the digested food is dissolved in the blood plasma (the fl uid in which blood cells are found).
Exemplar topic plans
MUST
PB pages 18–20
Starter 1Explaining 1Exploring 2Explaining 3Exploring 3Plenary 4Homework 1
SHOULD
PB pages 18–20
Starter 2Explaining 1Exploring 2Explaining 3Exploring 4Plenary 4Homework 2
COULD
PB pages 18–20
Starter 3Explaining 1Explaining 2Explaining 3Exploring 5Plenary 4Homework 3
SHOULD 2 Yr KS3
PB pages 18–20
Starter 2Explaining 1Exploring 2Explaining 3Exploring 4Plenary 4Homework 2
Be prepared: 8AeStarter 3: wide fabric.Exploring 1: white bath towel and white cotton sheeting.Exploring 2: a wide variety of food packaging/adverts.Explaining 2: glucose monophosphate solution, starch phosphorylase (or raw potato).
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Topic task plannerUse these tasks to adapt the exemplar topic plans to your own needs. Many tasks can be adapted to become different types (e.g. ‘starter’ rather than ‘exploring’). AT or AB/AT at the top of a task means that the task depends on using the ActiveBook and/or ActiveTeach; where these symbols appear in brackets it indicates that the task can be carried out with or without their use. Also consider using one of the plenaries from the previous topic as a starter task in this topic.
Task Level NC Type Objectives Skills 1 KC 2 KP 3 RC 4 CO
Starter 1 M/S 5–7 Classwork 1, 2 ,7, 8, 9 3c
Starter 2 S 7 Classwork 1, 2 ,7, 8, 9 3a, 3c
Starter 3 S 7 Practical 6 1a 3c
Exploring 1 S 7 Classwork 6 1a 1a, 2a 3c a
Exploring 2 M 5 Classwork 5 PLTS (Ie), Lit (RR), Num (T) 2b 3c a, c, j, k
Exploring 3 M 6 Classwork 5 Num (T) 2b 3a 3c a, c, j, k
Exploring 4 M 6 Classwork 5 Lit (DS) 2b 3a 3c a, c, j, k
Exploring 5 S 7 Classwork 5 Lit (DS) 2b 3a 3c a, c, j, k
Explaining 1 M/S 6–7 Classwork 1, 2, 3, 4, 6, 7, 8, 9 2b 3c j
Explaining 2 C 8 Practical 10 2a 2b, 3c a
Explaining 3 M 6 Classwork 5 3c a, c, j, k
Plenary 1 M/S 5–6 Classwork 1, 2, 6 PLTS (Ct) 3c
Plenary 2 M/S 4–7 Classwork whole unit PLTS (Ct, Rl) 3c
Plenary 3 M/S 5–7 Classwork 1, 2, 3, 4, 6, 7, 8, 9 Lit (WF), PLTS (Rl) 3c
Plenary 4 M/S 4–7 Classwork whole unit PLTS (Rl) 3c
Plenary 5 M/S 4–7 Classwork whole unit PLTS (Rl) 3c
Plenary 6 M/S 4–7 Classwork whole unit PLTS (Rl), Lit (WF) 3c
Plenary 7 M/S 4–7 Classwork whole unit Lit (WF) 3c
Plenary 8 M/S 4–7 Classwork whole unit PLTS (Rl, Sm) 3a, 3c
Homework 1 M 5 Homework 1, 2, 3, 4, 5 3c
Homework 2 S 6 Homework 6, 7, 8, 9 Lit (EW) 3c
Homework 3 C 8 Homework 7, 8, 9 Lit (EC) 1a 1c 3c
Homework 4 C EP Homework 6, 11 Num (C) 3c
Starters
1: Travelling foodAsk pupils to write a list of bullet points of how they think a food molecule needed by a leg muscle gets from the small intestine to the leg muscle cell.
2: Silent animationThe second AT animation link on page 19 opens Absorption – an animation that shows how soluble molecules like glucose are absorbed through the wall of the small intestine and travel around the body in the blood. Show pupils the animation without the sound and ask them to say what they think is happening and what the various parts are. Show pupils the animation again, with the sound on so that they can hear the voiceover explanation and consider how good their initial thoughts were.
3: Practical: Modelling villi (demonstration)This is an effective demonstration to get pupils to think about the effects of surface area. Take a length (say 50 cm) of wide fabric and lay it fl at on a worktop. Take another piece of the same fabric that is twice as long. Ask pupils what you would have to do to get the second piece of fabric to take up the same area of worktop as the fi rst piece. Pupils should be able to see that scrumpling it up will have this effect. Now ask which piece of fabric will be able to soak up more water. Most pupils will see that the second piece will because there’s more of it. Explain that this is a model for the small intestine and that it has ‘scrumpled up’ walls (or more accurately
projections) to increase its surface area and therefore increase the amount of digested food it can absorb in any period of time.
Resources (for demonstration)Two lengths of the same fabric, one twice the length of the other.
Exploring tasks
1: Bath towelsFrom the practical idea on page 18 of the Pupil’s Book, the effectiveness of increasing the surface area of towels can be looked at. Strips (3 cm × 15 cm) of white towelling and cotton sheet material are left for 1 minute with about 2 cm touching a coloured liquid in a shallow tray. It should be seen that the liquid travels faster up the bath towelling and this can be explained in terms of speed of absorption (although this is only partly true). Pupils may ask why most tea towels are not covered in villi and this may be explained by considering the expense, the fact that kitchen towels need to dry out quickly and hygiene.
Resources (per group)Shallow tray; 3 cm × 15 cm strip of white bath towelling; 3 cm × 15 cm strip of white sheeting; coloured liquid (e.g. orange squash).
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2: Health claim surveyProvide pupils with food packets that contain health claims. Ask them to think of a suitable question they can investigate using the labels (e.g. Which is the most common health claim? Which health claims come with small print? What is a portion size?). Pupils should consider what the point of putting claims on packaging is and whether it is ‘right’ for companies to be allowed to do this.
ResourcesSelection of food packaging showing health claims.
3: Traffi c lightsA lot of food packaging now comes with a traffi c light system to show what the food contains and to warn consumers about high levels of certain substances. Worksheet 8Ae(2) introduces this idea and asks pupils to use data tables to colour in a selection of ‘traffi c lights’ correctly.
Ask pupils how information from the ‘traffi c lights’ system can help them to make healthier choices.
ResourcesColoured pens; Worksheet 8Ae(2).
4: Go to work on an egg If you do a search on YouTube for ‘Go to work on an egg’ you’ll fi nd the original TV adverts for eggs from the 1960s, starring Tony Hancock. The adverts all end with the slogan ‘Go to work on an egg’. Show pupils one of the adverts and ask them what they think the slogan means. Then tell them that there was a plan to run the adverts again in 2005 but they were banned by the Broadcast Advertising Clearance Centre (BACC), which has to approve all TV adverts, because they said the adverts did not promote eating a balanced diet. Ask pupils what they think of this decision. Hold a class vote at the end or get pupils to write to the BACC expressing their opinion.
5: Debate There is an opportunity for a debate presented on page 20 of the Pupil’s Book. Refer to Skills Sheet 41 from Year 7 CHAP for ideas on how to run a debate. Some people are of the opinion that the consumer must be protected from misleading food labelling. Others believe that increasing the number of regulations further complicates the issues.
Explaining tasks
1: Pupil’s Book pages 18–19 (AT/AB)Worksheet 8Ae(1) is the Access Sheet.
• The fi rst AT video link on page 19 opens The circulatory system – a simple animation giving an overview of the circulatory system.
• The second AT video link on page 19 opens Absorption – see Starter 2.
2: Practical: Starch synthesis (demonstration)Question 6 on page 19 of the Pupil’s Book mentions that some cells can take small molecules of glucose and build them into larger ones (e.g. glycogen). Glycogen is a storage material. Ask pupils what does the actual building, and elicit the idea that enzymes do this too. Plants perform a similar trick, which is how starch is built up from sugars made in photosynthesis. (This practical is also suggested for use in Topic 9Cc.) This practical will demonstrate this but it is only really appropriate as a teacher demonstration.
Add 5 cm3 of 1% glucose monophosphate solution to a test tube. Then add 1 cm3 of 0.1% starch phosphorylase. Use a pipette to remove some of the mixture from the tube at 5-minute intervals. Add 5 drops to a spotting tile or well tray and test with 1 drop of iodine solution. After about 15 minutes the iodine solution should turn the sample blue–black, indicating the presence of starch.
Starch phosphorylase can be bought commercially or a solution can be made up by grinding a small piece of raw potato with 15 cm3 of distilled water, using a pestle and mortar and some sand. Filter the resulting suspension and test the fi ltrate with a drop of iodine to ensure that no starch is now present. If starch is still present, fi lter it again. A more effective way of removing the starch is to centrifuge the suspension for 3 or 4 minutes.
Wear eye protection. Iodine solution stains skin and may irritate the eyes.
Resources (for demonstration)Well tray or spotting tile; 1% glucose monophosphate solution (glucose-1-phosphate disodium salt); iodine solution (1 g iodine in 100 cm3 1.0 mol dm–3 potassium iodide solution); pipette; stopclock; 0.1% starch phosphorylase solution or raw potato; pestle; mortar; sand; fi ltering equipment/centrifuge to make a solution containing starch phosphorylase as detailed above; eye protection.
3: Pupil’s Book page 20 (AT/AB)This fi nal page introduces pupils to the idea of health claims and the regulation of what can be and can’t be printed on food packets.
• The AT video link opens Health claims – in which Dr Jason Halford explains how health claims are regulated.
• The AB spreadsheet link opens Food guidance systems – a document giving pupils data about certain foods and asking them to fi ll in charts for the foods using the ‘traffi c light system’ developed by the Food Standards Agency and the Guideline Daily Amounts (GDA) system developed by some of the big food manufacturers. Pupils are asked to decide which way is more useful to the consumer and how this sort of information can be used to make healthier choices.
Plenaries
1: Thinking about digested food (AT)Afl Use the following thinking skills questions as a plenary.
• PMI: only soluble molecules can go through the wall of the small intestine. (Possible answers: P – this makes sure only digested food goes into the blood; M – the body can’t absorb useful insoluble molecules; I – are there any diseases which mean that even soluble molecules don’t get absorbed properly?)
• OOO: artery, vein, heart, small intestine, capillary. (Possible answers: small intestine as all others are part of the circulatory system; heart as all others are tubes.)
The third AT presentation link on page 19 opens Thinking about digested food – a PowerPoint presentation version of this task.
2: Quick CheckAfl The Quick Check sheet contains the start of a concept
map. Pupils can use this to build up their own concept maps to summarise the unit. The Word Sheets for all the topics in this unit will prove useful for pupils.
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3: Quick Quiz Afl Revisit the 7A Quick Quiz to test pupils’ knowledge of the
content of this unit. If you have the ASP on CD-ROM use Quick Quiz 2, which provides the same activity but with the answers arranged in a different order. Pupils could fi ll in their answers on the Quick Quiz Answer Sheet. Encourage pupils to identify for themselves areas where their understanding is still weak and decide how they are going to remedy this.
4: Digestion crosswordWorksheet 8Ae(4) contains a crossword, revising some of the ideas met in this unit.
5: End of Unit TestAfl Use the End of Unit Test. A mark scheme is given in the
ASP. Encourage pupils to identify areas that are still weak and to formulate plans to strengthen those areas.
6: I can… cloze exercise AB/ATAfl The AB document link on page 19 opens a cloze exercise
covering the material on pages 18–19. There is also an AT presentation version with answers.
7: Healthy food packagingAfl Ask pupils to design the packaging for a healthy food that
will sell well. This could involve pupils coming up with a full design, using desktop publishing software, or simply writing out the wording that they want to use on their packets. Ask pupils to provide an explanation for each piece of information that they put on their packets. Point out to pupils that they should be demonstrating knowledge from all parts of this topic, including digestion.
This activity can be done as an assessed task. A set of level descriptions is provided on pages 30–31 of the ASP.
8: Level LadderPupils should tick the boxes on the Level Ladder to record those statements that they feel they know. Alternatively they can use a traffi c light system or the CRI index (see Introduction, page 17) to record degrees of certainty. Ideally pupils should be certain of all statements at a level to be sure they are working at that level. Encourage pupils to plan how to do further work on the things about which they remain unsure.
Homework tasks
1: Worksheet 8Ae(3) has simple questions on diet and the circulatory system.
2: Worksheet 8Ae(5) has questions on the small intestine and respiration.
3: Worksheet 8Ae(6) has questions on the diet and designing an investigation into respiration using a radioactive marker.
4: Worksheet 8Ae(7) asks questions about the small intestine and involves the use of equations and calculations.
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