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The people here are called mono-
mers, and most of them are part
carbon, and have the ability to cova-
lently bond with each other in order
fill their outer most shell.. The car-
bon atoms like to hold hands with
hydrogen, oxygen, nitrogen, and oth-
er carbon atoms, to form long chains.
These chains, or town gatherings are
refers to as polymers. The monomers
are joined together by dehydration
synthesis, which forms water mole-
cules. The town gatherings, poly-
mers, are broken up when it rains,
and water is added to them. ©1
Greetings from
Organic Molecules Organic
Molecules
The people here are called mono-
mers, and most of them are part
carbon, and have the ability to cova-
lently bond with each other in order
fill their outer most shell.. The car-
bon atoms like to hold hands with
hydrogen, oxygen, nitrogen, and oth-
er carbon atoms, to form long chains.
These chains, or town gatherings are
refers to as polymers. The monomers
are joined together by dehydration
synthesis, which forms water mole-
cules. The town gatherings, poly-
mers, are broken up when it rains,
and water is added to them. ©1
Greetings from
Organic Molecules Organic
Molecules
The people here are called mono-
mers, and most of them are part
carbon, and have the ability to cova-
lently bond with each other in order
fill their outer most shell.. The car-
bon atoms like to hold hands with
hydrogen, oxygen, nitrogen, and oth-
er carbon atoms, to form long chains.
These chains, or town gatherings are
refers to as polymers. The monomers
are joined together by dehydration
synthesis, which forms water mole-
cules. The town gatherings, poly-
mers, are broken up when it rains,
and water is added to them. ©1
Greetings from
Organic Molecules Organic
Molecules
The people here are called mono-
mers, and most of them are part
carbon, and have the ability to cova-
lently bond with each other in order
fill their outer most shell.. The car-
bon atoms like to hold hands with
hydrogen, oxygen, nitrogen, and oth-
er carbon atoms, to form long chains.
These chains, or town gatherings are
refers to as polymers. The monomers
are joined together by dehydration
synthesis, which forms water mole-
cules. The town gatherings, poly-
mers, are broken up when it rains,
and water is added to them. ©1
Greetings from
Organic Molecules Organic
Molecules
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Carbohydrates
Greetings from
Organic Molecules
There’s a lot of cliques here within
the molecules and carbohydrates are
one of them, they are made up of
carbon, hydrogen, and oxygen.
There’s a few different groups of
them though, the smallest are the
monosaccharaides named glucose,
the medium group is disaccharides,
named sucrose, and the biggest is
polysaccharides, named starch. ©1
Carbohydrates
Greetings from
Organic Molecules
There’s a lot of cliques here within
the molecules and carbohydrates are
one of them, they are made up of
carbon, hydrogen, and oxygen.
There’s a few different groups of
them though, the smallest are the
monosaccharaides named glucose,
the medium group is disaccharides,
named sucrose, and the biggest is
polysaccharides, named starch. ©1
Carbohydrates
Greetings from
Organic Molecules
There’s a lot of cliques here within
the molecules and carbohydrates are
one of them, they are made up of
carbon, hydrogen, and oxygen.
There’s a few different groups of
them though, the smallest are the
monosaccharaides named glucose,
the medium group is disaccharides,
named sucrose, and the biggest is
polysaccharides, named starch. ©1
Carbohydrates
Greetings from
Organic Molecules
There’s a lot of cliques here within
the molecules and carbohydrates are
one of them, they are made up of
carbon, hydrogen, and oxygen.
There’s a few different groups of
them though, the smallest are the
monosaccharaides named glucose,
the medium group is disaccharides,
named sucrose, and the biggest is
polysaccharides, named starch. ©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Lipids Greetings from
Organic Molecules
Another one of the cliques in town
are the lipids. They are made up of
carbon, hydrogen, and oxygen as
well. They are a little overweight
considering their monomer is fatty
acids. They are either saturated,
which are the bad kids around town,
or unsaturated, the good kids. Tri-
glyceride's are made up of fatty acids
and glycerol. Phospholipids are dou-
ble bonds, one end is hydrophobic,
who hates swimming, and the other
is hydrophilic, who you can’t keep out
of the water. The steroids are yet
another group of the lipids, they have
cholesterol and sex hormones in their
group. ©1
Lipids Greetings from
Organic Molecules
Another one of the cliques in town
are the lipids. They are made up of
carbon, hydrogen, and oxygen as
well. They are a little overweight
considering their monomer is fatty
acids. They are either saturated,
which are the bad kids around town,
or unsaturated, the good kids. Tri-
glyceride's are made up of fatty acids
and glycerol. Phospholipids are dou-
ble bonds, one end is hydrophobic,
who hates swimming, and the other
is hydrophilic, who you can’t keep out
of the water. The steroids are yet
another group of the lipids, they have
cholesterol and sex hormones in their
group. ©1
Lipids Greetings from
Organic Molecules
Another one of the cliques in town
are the lipids. They are made up of
carbon, hydrogen, and oxygen as
well. They are a little overweight
considering their monomer is fatty
acids. They are either saturated,
which are the bad kids around town,
or unsaturated, the good kids. Tri-
glyceride's are made up of fatty acids
and glycerol. Phospholipids are dou-
ble bonds, one end is hydrophobic,
who hates swimming, and the other
is hydrophilic, who you can’t keep out
of the water. The steroids are yet
another group of the lipids, they have
cholesterol and sex hormones in their
group. ©1
Lipids Greetings from
Organic Molecules
Another one of the cliques in town
are the lipids. They are made up of
carbon, hydrogen, and oxygen as
well. They are a little overweight
considering their monomer is fatty
acids. They are either saturated,
which are the bad kids around town,
or unsaturated, the good kids. Tri-
glyceride's are made up of fatty acids
and glycerol. Phospholipids are dou-
ble bonds, one end is hydrophobic,
who hates swimming, and the other
is hydrophilic, who you can’t keep out
of the water. The steroids are yet
another group of the lipids, they have
cholesterol and sex hormones in their
group. ©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Proteins Greetings from
Organic Molecules
The protein group is made up of mon-
omers of amino acids, there are 20 of
them. They’re into things like hair
and enzymes. They spend time to-
gether when peptide bonds connect
them. They are all 3 dimensional.
There are 4 social classes within the
proteins, the primary group is a
string of acids connected by peptide
bonds. The secondary group is a
structure of hydrogen bonds between
neighboring amino acids. This forms
a helix or a pleat. Tertiary is the
interaction of R groups, when the
protein folds and bonds. Quaternary
structures are when multiple poly-
peptide bonds come tog ©1
Proteins Greetings from
Organic Molecules
The protein group is made up of mon-
omers of amino acids, there are 20 of
them. They’re into things like hair
and enzymes. They spend time to-
gether when peptide bonds connect
them. They are all 3 dimensional.
There are 4 social classes within the
proteins, the primary group is a
string of acids connected by peptide
bonds. The secondary group is a
structure of hydrogen bonds between
neighboring amino acids. This forms
a helix or a pleat. Tertiary is the
interaction of R groups, when the
protein folds and bonds. Quaternary
structures are when multiple poly-
peptide bonds come tog ©1
Proteins Greetings from
Organic Molecules
The protein group is made up of mon-
omers of amino acids, there are 20 of
them. They’re into things like hair
and enzymes. They spend time to-
gether when peptide bonds connect
them. They are all 3 dimensional.
There are 4 social classes within the
proteins, the primary group is a
string of acids connected by peptide
bonds. The secondary group is a
structure of hydrogen bonds between
neighboring amino acids. This forms
a helix or a pleat. Tertiary is the
interaction of R groups, when the
protein folds and bonds. Quaternary
structures are when multiple poly-
peptide bonds come tog ©1
Proteins Greetings from
Organic Molecules
The protein group is made up of mon-
omers of amino acids, there are 20 of
them. They’re into things like hair
and enzymes. They spend time to-
gether when peptide bonds connect
them. They are all 3 dimensional.
There are 4 social classes within the
proteins, the primary group is a
string of acids connected by peptide
bonds. The secondary group is a
structure of hydrogen bonds between
neighboring amino acids. This forms
a helix or a pleat. Tertiary is the
interaction of R groups, when the
protein folds and bonds. Quaternary
structures are when multiple poly-
peptide bonds come tog ©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Organic Moleculeville
1234 Your Body
Atoms and Molecules
©1
Centrosome
2000 Next to the Nucleus Dr. , Cell, Your Body You’ll be located in
the cytoplasm right
next to the famous
Nucleus! With great
views and a
guaranteed job with
your wonderful
neighbors working
to build and break
down microtubules
for the pleasant little
$250,000 © 2
© 3
Centrosome
2000 Next to the Nucleus Dr. , Cell, Your Body You’ll be located in
the cytoplasm right
next to the famous
Nucleus! With great
views and a
guaranteed job with
your wonderful
neighbors working
to build and break
down microtubules
for the pleasant little
$250,000 © 2
© 3
Centrosome
2000 Next to the Nucleus Dr. , Cell, Your Body You’ll be located in
the cytoplasm right
next to the famous
Nucleus! With great
views and a
guaranteed job with
your wonderful
neighbors working
to build and break
down microtubules
for the pleasant little
$250,000 © 2
© 3
Centrosome
2000 Next to the Nucleus Dr. , Cell, Your Body You’ll be located in
the cytoplasm right
next to the famous
Nucleus! With great
views and a
guaranteed job with
your wonderful
neighbors working
to build and break
down microtubules
for the pleasant little
$250,000 © 2
© 3
Cytoplasm 300 All Over the Place St., Cell, Your
You’ll live in a gel-like
substance exclusive of
the nucleus and
plasma membrane;
your “house” includes
other houses such as
cytosol but not the
Nucleus monument!
Even though you don't
have access to the
Nucleus monument
this is still such a
$400,000 © 2
© 3
Cytoplasm 300 All Over the Place St., Cell, Your
You’ll live in a gel-like
substance exclusive of
the nucleus and
plasma membrane;
your “house” includes
other houses such as
cytosol but not the
Nucleus monument!
Even though you don't
have access to the
Nucleus monument
this is still such a
$400,000 © 2
© 3
Cytoplasm 300 All Over the Place St., Cell, Your
You’ll live in a gel-like
substance exclusive of
the nucleus and
plasma membrane;
your “house” includes
other houses such as
cytosol but not the
Nucleus monument!
Even though you don't
have access to the
Nucleus monument
this is still such a
$400,000 © 2
© 3
Cytoplasm 300 All Over the Place St., Cell, Your
You’ll live in a gel-like
substance exclusive of
the nucleus and
plasma membrane;
your “house” includes
other houses such as
cytosol but not the
Nucleus monument!
Even though you don't
have access to the
Nucleus monument
this is still such a
$400,000 © 2
© 3
Lysosome
600 In the Cytoplasm Ln., Cell, Your
This property is found
in all areas of the
town but, this one is
special because it
can break down
larger food
molecules into
smaller ones
AND it can also
“digest” older
parts of the town
$200,000 © 2
Lysosome
600 In the Cytoplasm Ln., Cell, Your
This property is found
in all areas of the
town but, this one is
special because it
can break down
larger food
molecules into
smaller ones
AND it can also
“digest” older
parts of the town
$200,000 © 2
Lysosome
600 In the Cytoplasm Ln., Cell, Your
This property is found
in all areas of the
town but, this one is
special because it
can break down
larger food
molecules into
smaller ones
AND it can also
“digest” older
parts of the town
$200,000 © 2
Lysosome
600 In the Cytoplasm Ln., Cell, Your
This property is found
in all areas of the
town but, this one is
special because it
can break down
larger food
molecules into
smaller ones
AND it can also
“digest” older
parts of the town
$200,000 © 2
Mitochondria
200 In the Cytoplasm Ln., Cell, Your Body
This property may
be pretty expensive
but this is the main
powerhouse of the
town. All the energy
the town needs
comes from the
property and you
can own it to learn
how it all works.
The ATP is how this
town produces
$800,000 © 2
© 3
Mitochondria
200 In the Cytoplasm Ln., Cell, Your Body
This property may
be pretty expensive
but this is the main
powerhouse of the
town. All the energy
the town needs
comes from the
property and you
can own it to learn
how it all works.
The ATP is how this
town produces
$800,000 © 2
© 3
Mitochondria
200 In the Cytoplasm Ln., Cell, Your Body
This property may
be pretty expensive
but this is the main
powerhouse of the
town. All the energy
the town needs
comes from the
property and you
can own it to learn
how it all works.
The ATP is how this
town produces
$800,000 © 2
© 3
Mitochondria
200 In the Cytoplasm Ln., Cell, Your Body
This property may
be pretty expensive
but this is the main
powerhouse of the
town. All the energy
the town needs
comes from the
property and you
can own it to learn
how it all works.
The ATP is how this
town produces
$800,000 © 2
© 3
Nucleus
900 Center of the Cell Dr., Cell, Your Body
This property is the
most expensive for a
reason. It is the
main hub of the
town and carries the
town’s “identity” in
something called
DNA. DNA is a very
sacred object in this
town and with you
owning all of it
$1,000,000 © 2
© 3
Nucleus
900 Center of the Cell Dr., Cell, Your Body
This property is the
most expensive for a
reason. It is the
main hub of the
town and carries the
town’s “identity” in
something called
DNA. DNA is a very
sacred object in this
town and with you
owning all of it
$1,000,000 © 2
© 3
Nucleus
900 Center of the Cell Dr., Cell, Your Body
This property is the
most expensive for a
reason. It is the
main hub of the
town and carries the
town’s “identity” in
something called
DNA. DNA is a very
sacred object in this
town and with you
owning all of it
$1,000,000 © 2
© 3
Nucleus
900 Center of the Cell Dr., Cell, Your Body
This property is the
most expensive for a
reason. It is the
main hub of the
town and carries the
town’s “identity” in
something called
DNA. DNA is a very
sacred object in this
town and with you
owning all of it
$1,000,000 © 2
© 3
Plasma Membrane
350 Outside Layer of Cell Ln., Cell, Your Body
With this property you
have ultimate control
of the flow of goods
and things through
your town, protecting
the town from any
harmful “people”
trying to enter. This is
also how your town
maintains its perfect
“homeostasis”
$700,000 © 2
© 3
Plasma Membrane
350 Outside Layer of Cell Ln., Cell, Your Body
With this property you
have ultimate control
of the flow of goods
and things through
your town, protecting
the town from any
harmful “people”
trying to enter. This is
also how your town
maintains its perfect
“homeostasis”
$700,000 © 2
© 3
Plasma Membrane
350 Outside Layer of Cell Ln., Cell, Your Body
With this property you
have ultimate control
of the flow of goods
and things through
your town, protecting
the town from any
harmful “people”
trying to enter. This is
also how your town
maintains its perfect
“homeostasis”
$700,000 © 2
© 3
Plasma Membrane
350 Outside Layer of Cell Ln., Cell, Your Body
With this property you
have ultimate control
of the flow of goods
and things through
your town, protecting
the town from any
harmful “people”
trying to enter. This is
also how your town
maintains its perfect
“homeostasis”
$700,000 © 2
© 3
Ribosome
400 In the Cytoplasm Ln., Cell, Your Body
These properties can be
attached or detached to
the Endoplasmic
Reticulum properties.
You get a stable job
synthesizing proteins!
Your house is
constructed of rRNA,
which is a key
component in your
everyday life when
purchasing one of
these properties.
$750,000 © 2
© 3
Ribosome
400 In the Cytoplasm Ln., Cell, Your Body
These properties can be
attached or detached to
the Endoplasmic
Reticulum properties.
You get a stable job
synthesizing proteins!
Your house is
constructed of rRNA,
which is a key
component in your
everyday life when
purchasing one of
these properties.
$750,000 © 2
© 3
Ribosome
400 In the Cytoplasm Ln., Cell, Your Body
These properties can be
attached or detached to
the Endoplasmic
Reticulum properties.
You get a stable job
synthesizing proteins!
Your house is
constructed of rRNA,
which is a key
component in your
everyday life when
purchasing one of
these properties.
$750,000 © 2
© 3
Ribosome
400 In the Cytoplasm Ln., Cell, Your Body
These properties can be
attached or detached to
the Endoplasmic
Reticulum properties.
You get a stable job
synthesizing proteins!
Your house is
constructed of rRNA,
which is a key
component in your
everyday life when
purchasing one of
these properties.
$750,000 © 2
© 3
Inorganic Molecules
Water: All living organisms require water
to survive. Water makes up almost 70% of
body weight and serves a host of vital func-
tions.
Properties of water: Simple and stable com-
pound. Atomic structure comes from the
combination of two covalent bonds between
single oxygen atom and two hydrogen at-
Oxygen and Carbon Dioxide: Oxygen is
required to complete the decomposition
reactions required for the release of energy
from nutrients burned by the cell. Carbon
dioxide is produced as a waste product dur-
ing the breakdown of complex nutrients and
also serves an important role in maintaining
the appropriate acid-base balance in the
body.©3
Electrolytes: Substances that that break
up in solution to form charged particles or
ions.
Acids: Any substance that will release a
hydrogen ion when in solution.
Bases: Also known as alkaline compounds,
are electrolytes that when dissociated in
Buffers: Minimizes changes in the concen-
trations of +H and –OH ions in our body
fluids. Buffers act as a reservoir for +H ions.
They donate or remove +H ions to a solution
if that becomes necessary to maintain a
constant pH.
Salts: Any compound that results from the
chemical interaction of an acid and a base.
©3
Inorganic Molecules
Water: All living organisms require water
to survive. Water makes up almost 70% of
body weight and serves a host of vital func-
tions.
Properties of water: Simple and stable com-
pound. Atomic structure comes from the
combination of two covalent bonds between
single oxygen atom and two hydrogen at-
Oxygen and Carbon Dioxide: Oxygen is
required to complete the decomposition
reactions required for the release of energy
from nutrients burned by the cell. Carbon
dioxide is produced as a waste product dur-
ing the breakdown of complex nutrients and
also serves an important role in maintaining
the appropriate acid-base balance in the
body.©3
Electrolytes: Substances that that break
up in solution to form charged particles or
ions.
Acids: Any substance that will release a
hydrogen ion when in solution.
Bases: Also known as alkaline compounds,
are electrolytes that when dissociated in
Buffers: Minimizes changes in the concen-
trations of +H and –OH ions in our body
fluids. Buffers act as a reservoir for +H ions.
They donate or remove +H ions to a solution
if that becomes necessary to maintain a
constant pH.
Salts: Any compound that results from the
chemical interaction of an acid and a base.
©3
Inorganic Molecules
Water: All living organisms require water
to survive. Water makes up almost 70% of
body weight and serves a host of vital func-
tions.
Properties of water: Simple and stable com-
pound. Atomic structure comes from the
combination of two covalent bonds between
single oxygen atom and two hydrogen at-
Oxygen and Carbon Dioxide: Oxygen is
required to complete the decomposition
reactions required for the release of energy
from nutrients burned by the cell. Carbon
dioxide is produced as a waste product dur-
ing the breakdown of complex nutrients and
also serves an important role in maintaining
the appropriate acid-base balance in the
body.©3
Electrolytes: Substances that that break
up in solution to form charged particles or
ions.
Acids: Any substance that will release a
hydrogen ion when in solution.
Bases: Also known as alkaline compounds,
are electrolytes that when dissociated in
Buffers: Minimizes changes in the concen-
trations of +H and –OH ions in our body
fluids. Buffers act as a reservoir for +H ions.
They donate or remove +H ions to a solution
if that becomes necessary to maintain a
constant pH.
Salts: Any compound that results from the
chemical interaction of an acid and a base.
©3
Inorganic Molecules
Water: All living organisms require water
to survive. Water makes up almost 70% of
body weight and serves a host of vital func-
tions.
Properties of water: Simple and stable com-
pound. Atomic structure comes from the
combination of two covalent bonds between
single oxygen atom and two hydrogen at-
Oxygen and Carbon Dioxide: Oxygen is
required to complete the decomposition
reactions required for the release of energy
from nutrients burned by the cell. Carbon
dioxide is produced as a waste product dur-
ing the breakdown of complex nutrients and
also serves an important role in maintaining
the appropriate acid-base balance in the
body.©3
Electrolytes: Substances that that break
up in solution to form charged particles or
ions.
Acids: Any substance that will release a
hydrogen ion when in solution.
Bases: Also known as alkaline compounds,
are electrolytes that when dissociated in
Buffers: Minimizes changes in the concen-
trations of +H and –OH ions in our body
fluids. Buffers act as a reservoir for +H ions.
They donate or remove +H ions to a solution
if that becomes necessary to maintain a
constant pH.
Salts: Any compound that results from the
chemical interaction of an acid and a base.
©3
Inorganic Molecules
What is it made
of?
PLEASE
PLACE
STAMP
HERE
©4
©5
©6
©7
Inorganic Molecules
What is it made
of?
PLEASE
PLACE
STAMP
HERE
©4
©5
©6
©7
Inorganic Molecules
What is it made
of?
PLEASE
PLACE
STAMP
HERE
©4
©5
©6
©7
Inorganic Molecules
What is it made
of?
PLEASE
PLACE
STAMP
HERE
©4
©5
©6
©7