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MINISTRY OF EDUCATION MALAYSIA
Integrated Curriculum for Secondary Schools
Curriculum Specifications
BIOLOGY
Form 4
Curriculum Development Centre
Ministry of Education Malaysia2005
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Copyright 2005Ministry of Education Malaysia
First published 2005
All rights reserved. No part of this book may be reproduced or transmitted in any form or by any means,
electronic or mechanical, including photocopying, and recording or by any information storage and retrievalsystem, without permission in writing from the Director of Curriculum Development Centre, Level 4-8, Block E9,Government Complex Parcel E, 62604 Putrajaya, Malaysia.
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TABLE OF CONTENTS
Page
The National Philosophy v
National Philosophy of Education vii
National Science Education Philosophy ix
Preface xi
Introduction 1
Scientific Skills 2
Thinking Skills 4
Scientific Attitudes and Noble Values 8
Teaching and Learning Strategies 9
Content Organisation 12
THEME: INTRODUCING BIOLOGY
Learning Area : 1. Introduction to Biology 14
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THEME: INVESTIGATING THE CELL AS A BASIC UNIT OF LIVING THINGS
Learning Area : 1. Cell structure and cell organisation 16
Learning Area : 2. Movement of substances across the plasma membrane 20
Learning Area : 3. Chemical composition of the cell 24
Learning Area : 4. Cell division 28
THEME: INVESTIGATING THE PHYSIOLOGY OF LIVING THINGS
Learning Area : 1. Nutrition 32
Learning Area : 2. Respiration 47
THEME: INVESTIGATING THE RELATIONSHIP BETWEEN LIVING THINGS AND
THE ENVIRONMENT
Learning Area : 1. Dynamic ecosystem 55
Learning Area : 2. Endangered ecosystem 62
Acknowledgements 67
Panel of Writers 68
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v
THE NATIONAL PHILOSOPHY
Our nation, Malaysia, is dedicated to achieving a greater unity of all her peoples; to maintaining a democratic way of life; to
creating a just society in which the wealth of the nation shall be equitably shared; to ensuring a liberal approach to her rich
and diverse cultural traditions; to building a progressive society which shall be oriented towards modern science and
technology;
We, her peoples, pledge our united efforts to attain these ends guided by the following principles:
BELIEF IN GOD
LOYALTY TO KING AND COUNTRY
SUPREMACY OF THE CONSTITUTION
RULE OF LAW
GOOD BEHAVIOUR AND MORALITY
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vii
NATIONAL PHILOSOPHY OF EDUCATION
Education in Malaysia is an on-going effort towards further developing the potential of individuals in a holistic and integrated
manner, so as to produce individuals who are intellectually, spiritually, emotionally and physically balanced and harmonious
based on a firm belief in and devotion to God. Such an effort is designed to produce Malaysian citizens who are
knowledgeable and competent, who possess high moral standards and who are responsible and capable of achieving a highlevel of personal well-being as well as being able to contribute to the betterment of the family, society and the nation at large.
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NATIONAL SCIENCE EDUCATION PHILOSOPHY
In consonance with the National Education Philosophy, science education inMalaysia nurtures a
science and technology culture by focusing
on the development of individuals who are competitive, dynamic, robust andresilient and able to
master scientific knowledge and technological competency.
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PREFACE
The aspiration of the nation to become an industrialised societydepends on science and technology. It is envisaged thatsuccess in providing quality science education to Malaysiansfrom an early age will serve to spearhead the nation intobecoming a knowledge society and a competitive player in theglobal arena. Towards this end, the Malaysian education systemis giving greater emphasis to science and mathematicseducation.
The Biology curriculum has been designed not only to provideopportunities for students to acquire science knowledge andskills, develop thinking skills and thinking strategies, and to
apply this knowledge and skills in everyday life, but also toinculcate in them noble values and the spirit of patriotism. It ishoped that the educational process en route to achieving theseaims would produce well-balanced citizens capable ofcontributing to the harmony and prosperity of the nation and itspeople.
The Biology curriculum aims at producing active learners. Tothis end, students are given ample opportunities to engage inscientific investigations through hands-on activities andexperimentations. The inquiry approach, incorporating thinkingskills, thinking strategies and thoughtful learning, should beemphasised throughout the teaching-learning process. Thecontent and contexts suggested are chosen based on theirrelevance and appeal to students so that their interest in thesubject is enhanced.
In a recent development, the Government has made a decision tointroduce English as the medium of instruction in the teachingand learning of science and mathematics. This measure willenable students to keep abreast of developments in science andtechnology in contemporary society by enhancing their capabilityand know-how to tap the diverse sources of information onscience written in the English language. At the same time, thismove would also provide opportunities for students to use theEnglish language and hence, increase their proficiency in thelanguage. Thus, in implementing the biology curriculum, attentionis given to developing students ability to use English for studyand communication, especially in the early years of learning.
The development of this curriculum and the preparation of thecorresponding Curriculum Specifications have been the work ofmany individuals over a period of time. To all those who havecontributed in one way or another to this effort, may I, on behalfof the Ministry of Education, express my sincere gratitude andthanks for the time and labour expended.
(MAHZAN BIN BAKARSMP, AMP
)DirectorCurriculum Development CentreMinistry of Education Malaysia
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INTRODUCTION
As articulated in the National Education Policy, education inMalaysia is an on-going effort towards developing the potentialof individuals in a holistic and integrated manner to produceindividuals who are intellectually, spiritually, emotionally andphysically balanced and harmonious. The primary andsecondary school science curriculum is developed with the aimof producing such individuals.
As a nation that is progressing towards a developed nationstatus, Malaysia needs to create a society that is scientificallyoriented, progressive, knowledgeable, having a high capacity forchange, forward-looking, innovative and a contributor toscientific and technological developments in the future. In linewith this, there is a need to produce citizens who are creative,
critical, inquisitive, open-minded and competent in science andtechnology.
The Malaysian science curriculum comprises three core sciencesubjects and four elective science subjects. The core subjectsare Science at primary school level, Science at lower secondarylevel and Science at upper secondary level. Elective sciencesubjects are offered at the upper secondary level and consist ofBiology, Chemistry, Physics, and Additional Science.
The core science subjects for the primary and lower secondarylevels are designed to provide students with basic science
knowledge, prepare students to be literate in science, andenable students to continue their science education at the uppersecondary level. Core Science at the upper secondary level is
designed to produce students who are literate inscience, innovative, and able to apply scientific knowledge indecision making and problem solving in everyday life.
The elective science subjects prepare students who are morescientifically inclined to pursue the study of science at post-
secondary level. This group of students would take up careers inthe field of science and technology and play a leading role in thisfield for national development.
For every science subject, the curriculum for the year isarticulated in two documents: the syllabus and the curriculumspecifications. The syllabus presents the aims, objectives and theoutline of the curriculum content for a period of 2 years forelective science subjects and 5 years for core science subjects.The curriculum specifications provides the details of thecurriculum which includes the aims and objectives of thecurriculum, brief descriptions on thinking skills and thinking
strategies, scientific skills, scientific attitudes and noble values,teaching and learning strategies, and curriculum content. Thecurriculum content provides the themes, learning areas, learningobjectives, suggested learning activities, the intended learningoutcomes, notes and vocabulary.
AIMS
The aims of the biology curriculum for secondary school are toprovide students with the knowledge and skills in science andtechnology and enable them to solve problems and makedecisions in everyday life based on scientific attitudes and noblevalues.
Students who have followed the biology curriculum will have thefoundation in biology to enable them to pursue formal andinformal further education in science and technology.
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The curriculum also aims to develop a concerned, dynamic andprogressive society with a science and technology culture thatvalues nature and works towards the preservation andconservation of the environment.
OBJECTIVES
The biology curriculum for secondary school enables studentsto:
1. Acquire knowledge in biology and technology in thecontext of natural phenomena and everyday lifeexperiences.
2. Understand developments in the field of biology andtechnology.
3. Acquire scientific and thinking skills.
4. Apply knowledge and skills in a creative and criticalmanner to solve problems and make decisions onbiology-related issues.
5. Apply knowledge of biology to improve ones health andwell-being, and face challenges in the scientific andtechnological world and be willing to contribute towardsthe development of science and technology.
6. Evaluate science and technology-related informationwisely and effectively.
7. Practise and internalise scientific attitudes and goodmoral values.
8. Realise the importance of inter-dependence among livingthings and the management of nature for survival ofmankind.
9. Appreciate the contributions of science and technologytowards national development and the well-being of
mankind.
10. Realise that scientific discoveries are the result of humanendeavour to the best of his or her intellectual and mentalcapabilities to understand natural phenomena for thebetterment of mankind.
11. Be aware of the need to love and care for theenvironment and play an active role in its preservationand conservation.
SCIENTIFIC SKILLS
Science emphasises inquiry and problem solving. In inquiry andproblem solving processes, scientific and thinking skills areutilised. Scientific skills are important in any scientificinvestigation such as conducting experiments and carrying outprojects.
Scientific skills encompass science process skills andmanipulative skills.
Science Process Skills
Science process skills enable students to formulate theirquestions and find out the answers systematically.
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Descriptions of the science process skills are as follows:
Observing Using the sense of hearing, touch, smell,taste and sight to collect information about anobject or a phenomenon.
Classifying Using observations to group objects or eventsaccording to similarities or differences.
Measuring andUsingNumbers
Making quantitative observations usingnumbers and tools with standardised units.Measuring makes observation more accurate.
Inferring Using past experiences or previouslycollected data to draw conclusions andexplain events.
Predicting Stating the outcome of a future event based
on prior knowledge gained throughexperiences or collected data.
Communicating Using words or graphic symbols such astables, graphs, figures or models to describean action, object or event.
Using Space-Time Relationship
Describing changes in parameter with time.Examples of parameters are location,direction, shape, size, volume, weight andmass.
Interpreting Data Giving rational explanations about an object,event or pattern derived from collected data.
DefiningOperationally
Defining concepts by describing what must bedone and what should be observed.
ControllingVariables
Identifying the fixed variables, manipulatedvariable, and responding variable in aninvestigation. The manipulated variable ischanged to observe its relationship with theresponding variable. At the same time, thefixed variables are kept constant.
Hypothesising Making a general statement about therelationship between a manipulated variableand a responding variable in order to explainan event or observation. This statement canbe tested to determine its validity.
Experimenting Planning and conducting activities to test acertain hypothesis. These activities includecollecting, analysing and interpreting data andmaking conclusions.
Manipulative Skills
Manipulative skills in scientific investigation are psychomotorskills that enable students to:
? use and handle science apparatus and laboratory substancescorrectly,
? handle specimens correctly and carefully,? draw specimens, apparatus and laboratory substances
accurately,
? clean science apparatus correctly, and
? store science apparatus and laboratory substances correctlyand safely.
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THINKING SKILLS
Thinking is a mental process that requires an individual tointegrate knowledge, skills and attitude in an effort to understandthe environment.
One of the objectives of the national education system is toenhance the thinking ability of students. This objective can beachieved through a curriculum that emphasises thoughtfulllearning. Teaching and learning that emphasises thinking skillsis a foundation for thoughtful learning.
Thoughtful learning is achieved if students are actively involvedin the teaching and learning process. Activities should beorganised to provide opportunities for students to apply thinkingskills in conceptualisation, problem solving and decision-making.
Thinking skills can be categorised into critical thinking skills andcreative thinking skills. A person who thinks critically alwaysevaluates an idea in a systematic manner before accepting it. Aperson who thinks creatively has a high level of imagination, isable to generate original and innovative ideas, and modify ideasand products.
Thinking strategies are higher order thinking processes thatiinvolve various steps. Each step involves various critical andcreative thinking skills. The ability to formulate thinkingstrategies is the ultimate aim of introducing thinking activities inthe teaching and learning process.
Critical Thinking Skills
A brief description of each critical thinking skill is as follows:
Attributing Identifying characteristics, features,qualities and elements of a concept or an
object.Comparing andContrasting
Finding similarities and differences basedon criteria such as characteristics,features, qualities and elements of aconcept or event.
Grouping andClassifying
Separating objects or phenomena intocategories based on certain criteria suchas common characteristics or features.
Sequencing Arranging objects and information in orderbased on the quality or quantity of commoncharacteristics or features such as size,
time, shape or number.
Prioritising Arranging objects and information in orderbased on their importance or priority.
Analysing Examining information in detail by breakingit down into smaller parts to find implicitmeanings and relationships.
Detecting Bias Identifying views or opinions that have thetendency to support or oppose somethingin an unfair or misleading way.
Evaluating Making judgements on the quality or value
of something based on valid reasons orevidence.
Making Conclusions Making a statement about the outcome ofan investigation that is based on ahypothesis.
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Figure 1: TSTS Model in Science Mastering of thinking skills and thinking strategies (TSTS)through the teaching and learning of science can bedeveloped through the following phases:
1. Introducing TSTS.2. Practising TSTS with teachers guidance.
3. Practising TSTS without teachers guidance.4. Applying TSTS in new situations with teachersguidance.
5. Applying TSTS together with other skills to accomplishthinking tasks.
Further information about phases of implementing TSTS canbe found in the guidebook Buku Panduan PenerapanKemahiran Berfikir dan Strategi Berfikir dalam Pengajarandan Pembelajaran Sains (Curriculum Development Centre,1999).
Relationship between Thinking Skills and Science ProcessSkills
Science process skills are skills that are required in theprocess of finding solutions to a problem or making decisionsin a systematic manner. It is a mental process that promotescritical, creative, analytical and systematic thinking. Masteringof science process skills and the possession of suitableattitudes and knowledge enable students to think effectively.
The mastering of science process skills involves themastering of the relevant thinking skills. The thinking skills
that are related to a particular science process skill are asfollows:
Thinking Skills
Critical
?Attributing
?Comparing andcontrasting
?Grouping andclassifying
?Sequencing
?
Prioritising?Analysing
?Detecting bias
?Evaluating
?Makingconclusions
Creative
?Generating ideas
?Relating?Making inferences
?Predicting
?Makinghypotheses
?Synthesising?Making
generalisations
?Visualising?Making analogies
? Inventing
Thinking
Strategies
? Conceptualising
? Making decisions
Reasoning
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Science Process Skills Thinking Skills
Observing AttributingComparing and contrastingRelating
Classifying AttributingComparing and contrastingGrouping and classifying
Measuring and UsingNumbers
RelatingComparing and contrasting
Making Inferences RelatingComparing and contrastingAnalysingMaking inferences
Predicting RelatingVisualising
Using Space-TimeRelationship
SequencingPrioritising
Interpreting data Comparing and contrastingAnalysingDetecting biasMaking conclusionsGeneralisingEvaluating
Defining operationally RelatingMaking analogyVisualisingAnalysing
Science Process Skills Thinking Skills
Controlling variables AttributingComparing and contrastingRelating
Analysing
Making hypotheses AttributingRelatingComparing and contrastingGenerating ideasMaking hypothesesPredictingSynthesising
Experimenting All thinking skills
Communicating All thinking skills
Teaching and Learning based on Thinking Skills andScientific Skills
This biology curriculum emphasises thoughtful learning based onthinking skills and scientific skills. Mastery of thinking skills andscientific skills are integrated with the acquisition of knowledge inthe intended learning outcomes. Thus, in teaching and learning,teachers need to emphasise the mastery of skills together withthe acquisition of knowledge and the inculcation of noble values
and scientific attitudes.
The following is an example and explanation of a learningoutcome based on thinking skills and scientific skills.
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Example:
Learning Outcome:
Thinking Skills:
Compare and contrast animal cell andplant cell based on the structure andorganelles
Comparing and contrasting
Explanation:
To achieve the above learning outcome, knowledge on thestructure and organelles in animal and plant cells are learnedthrough comparing and contrasting. The mastery of the skill ofcomparing and contrasting is as important as the acquisition ofknowledge on animal and plant cells. This would enablestudents to understand topics on mitosis and meiosis.
SCIENTIFIC ATTITUDES AND NOBLE VALUES
Science learning experiences can be used as a means toinculcate scientific attitudes and noble values in students. Theseattitudes and values encompass the following:
? Having an interest and curiosity towards the environment.
? Being honest and accurate in recording and validating data.? Being diligent and persevering.
? Being responsible about the safety of oneself, others, andthe environment.
? Realising that science is a means to understand nature.
? Appreciating and practising clean and healthy living.
? Appreciating the balance of nature.
? Being respectful and well-mannered.
? Appreciating the contribution of science and technology.
? Being thankful to God.
? Having critical and analytical thinking.
? Being flexible and open-minded.? Being kind-hearted and caring.
? Being objective.? Being systematic.
? Being cooperative.
? Being fair and just.? Daring to try.
? Thinking rationally.
? Being confident and independent.
The inculcation of scientific attitudes and noble values generallyoccurs through the following stages:
? Being aware of the importance and the need for scientific
attitudes and noble values.? Giving emphasis to these attitudes and values.
? Practising and internalising these scientific attitudes andnoble values.
When planning teaching and learning activities, teachers need togive due consideration to the above stages to ensure thecontinuous and effective inculcation of scientific attitudes andvalues. For example, during science practical work, the teachershould remind pupils and ensure that they carry out experimentsin a careful, cooperative and honest manner.
Proper planning is required for effective inculcation of scientificattitudes and noble values during science lessons. Before thefirst lesson related to a learning objective, teachers shouldexamine all related learning outcomes and suggested teaching-learning activities that provide opportunities for the inculcation ofscientific attitudes and noble values.
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The following is an example of a learning outcome pertaining tothe inculcation of scientific attitudes and values.
Example:
Level:
Learning Area:
Learning Objective:
Learning Outcome:
Suggested LearningActivities
Scientific attitudes andnoble values
Form Four
2.0 Endangered Ecosystem
2.3 Realising the importance ofproper management ofdevelopment activities and theecosystem.
Explain measures taken in themanagement of development
activities and the ecosystem toensure a balance of nature ismaintained.
Carry out small group discussionand present the findings, based onthe following:a) implementation of laws,b) education on the management
of resources, include thereduce, reuse, and recycle ofresources,
Love and respect for theenvironment.
Being responsible for the safety ofoneself, others and theenvironment.
Appreciating the balance of nature.
Being systematic.
Being cooperative.
Inculcating Patriotism
The biology curriculum provides an opportunity for thedevelopment and strengthening of patriotism among students.For example, in learning about the process of colonization andsuccession in an ecosystem, students will learn about the richbiodiversity in the country, they will appreciate the diversity anduniqueness of this natural resource of the country and deepentheir love for the country.
TEACHING AND LEARNING STRATEGIES
Teaching and learning strategies in the biology curriculumemphasise thoughtful learning. Thoughtful learning is a processthat helps students acquire knowledge and master skills that willhelp them develop their minds to the optimum level. Thoughtfullearning can occur through various learning approaches such asinquiry, constructivism, contextual learning, and mastery learning.Learning activities should therefore be geared towards activatingstudents critical and creative thinking skills and not be confinedto routine or rote learning. Students should be made aware of the
thinking skills and thinking strategies that they use in theirlearning. They should be challenged with higher order questionsand problems and be required to solve problems utilising theircreativity and critical thinking. The teaching and learning processshould enable students to acquire knowledge, master skills anddevelop scientific attitudes and noble values in an integratedmanner.
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Teaching and Learning Approaches in Science
Inquiry-Discovery
Inquiry-discovery emphasises learning through experiences.Inquiry generally means to find information, to question and to
investigate a phenomenon that occurs in the environment.Discovery is the main characteristic of inquiry. Learning throughdiscovery occurs when the main concepts and principles ofscience are investigated and discovered by studentsthemselves. Through activities such as experiments, studentsinvestigate a phenomenon and draw conclusions by themselves.Teachers then lead students to understand the science conceptsthrough the results of the inquiry. Thinking skills and scientificskills are thus developed further during the inquiry process.However, the inquiry approach may not be suitable for allteaching and learning situations. Sometimes, it may be moreappropriate for teachers to present concepts and principles
directly to students.
Constructivism
Constructivism suggests that students learn about somethingwhen they construct their own understanding. The importantattributes of constructivism are as follows:
? Taking into account students prior knowledge.
? Learning occurring as a result of students own effort.
? Learning occurring when students restructure theirexisting ideas by relating new ideas to old ones.
? Providing opportunities to cooperate, sharing ideasand experiences, and reflecting on their learning.
Science, Technology and Society
Meaningful learning occurs if students can relate their learningwith their daily experiences. Meaningful learning occurs in
learning approaches such as contextual learning and Science,Technology and Society (STS).
Learning themes and learning objectives that carry elements ofSTS are incorporated into the curriculum. STS approachsuggests that science learning takes place through investigationand discussion based on science and technology issues in
society. In the STS approach, knowledge in science andtechnology is to be learned with the application of the principlesof science and technology and their impact on society.
Contextual Learning
Contextual learning is an approach that associates learning withdaily experiences of students. In this way, students are able toappreciate the relevance of science learning to their lives. Incontextual learning, students learn through investigations as inthe inquiry-discovery approach.
Mastery Learning
Mastery learning is an approach that ensures all students areable to acquire and master the intended learning objectives. Thisapproach is based on the principle that students are able to learnif they are given adequate opportunities. Students should beallowed to learn at their own pace, with the incorporation ofremedial and enrichment activities as part of the teaching-learning process.
Teaching and Learning Methods
Teaching and learning approaches can be implemented throughvarious methods such as experiments, discussions, simulations,projects, and visits. In this curriculum, the teaching-learningmethods suggested are stated under the column SuggestedLearning Activities. However, teachers can modify thesuggested activities when the need arises.
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The use of a variety of teaching and learning methods canenhance students interest in science. Science lessons that arenot interesting will not motivate students to learn andsubsequently will affect their performances. The choiceof teaching methods should be based on the curriculum content,
students abilities, students repertoire of intelligences, and theavailability of resources and infrastructure. Besides playing therole of knowledge presenters and experts, teachers need to actas facilitators in the process of teaching and learning. Teachersneed to be aware of the multiple intelligences that exist amongstudents. Different teaching and learning activities should beplanned to cater for students with different learning styles andintelligences.
The following are brief descriptions of some teaching andlearning methods.
Experiment
An experiment is a method commonly used in science lessons.In experiments, students test hypotheses through investigationsto discover specific science concepts and principles. Conductingan experiment involves thinking skills, scientific skills, andmanipulative skills.
Usually, an experiment involves the following steps:
? Identifying a problem.
? Making a hypothesis.
? Planning the experiment- controlling variables.
- determining the equipment and materials needed.
- determining the procedure of the experiment and themethod of data collection and analysis.
? Conducting the experiment.
? Collecting data.
? Analysing data.
? Interpreting data.
? Making conclusions.
? Writing a report.
In the implementation of this curriculum, besides guiding studentsto do an experiment, where appropriate, teachers should providestudents with the opportunities to design their own experiments.This involves students drawing up plans as to how to conductexperiments, how to measure and analyse data, and how topresent the outcomes of their experiment.
Discussion
A discussion is an activity in which students exchange questionsand opinions based on valid reasons. Discussions can be
conducted before, during or after an activity. Teachers shouldplay the role of a facilitator and lead a discussion by askingquestions that stimulate thinking and getting students to expressthemselves.
Simulation
In simulation, an activity that resembles the actual situation iscarried out. Examples of simulation are role-play, games and theuse of models. In role-play, students play out a particular rolebased on certain pre-determined conditions. Games requireprocedures that need to be followed. Students play games in
order to learn a particular principle or to understand the processof decision-making. Models are used to represent objects oractual situations so that students can visualise the said objects orsituations and thus understand the concepts and principles to belearned.
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Project
A project is a learning activity that is generally undertaken by anindividual or a group of students to achieve a certain learningobjective. A project generally requires several lessons tocomplete. The outcome of the project either in the form of a
report, an artefact or in other forms needs to be presented to theteacher and other students. Project work promotes thedevelopment of problem-solving skills, time management skills,and independent learning.
Visits and Use of External Resources
The learning of science is not limited to activities carried out inthe school compound. Learning of science can be enhancedthrough the use of external resources such as zoos, museums,science centres, research institutes, mangrove swamps, andfactories. Visits to these places make the learning of science
more interesting, meaningful and effective. To optimise learningopportunities, visits need to be carefully planned. Students maybe involved in the planning process and specific educationaltasks should be assigned during the visit. No educational visit iscomplete without a post-visit discussion.
Use of Technology
Technology is a powerful tool that has great potential inenhancing the learning of science. Through the use oftechnology such as television, radio, video, computer, andInternet, the teaching and learning of science can be made more
interesting and effective.
Computer simulation and animation are effective tools for theteaching and learning of abstract or difficult science concepts.Computer simulation and animation can be presented throughcourseware or Web page. Application tools such, as wordprocessor, graphic presentation software and electronic
spreadsheet are valuable tools for the analysis and presentationof data.
The use of other tools such as data loggers and computerinterfacing in experiments and projects also enhance theeffectiveness of teaching and learning of science.
CONTENT ORGANISATION
The biology curriculum is organised around themes. Each themeconsists of various learning areas, each of which consists of anumber of learning objectives. A learning objective has one ormore learning outcomes.
Learning outcomes are written based on the hierarchy of thecognitive and affective domains. Levels in the cognitive domainare: knowledge, understanding, application, analysis, synthesisand evaluation. Levels in the affective domain are: to be awareof, to be in awe, to be appreciative, to be thankful, to love, topractise, and to internalise. Where possible, learning outcomesrelating to the affective domain are explicitly stated. Theinculcation of scientific attitudes and noble values should beintegrated into every learning activity. This ensures a morespontaneous and natural inculcation of attitudes and values.Learning areas in the psychomotor domain are implicit in thelearning activities.
Learning outcomes are written in the form of measurablebehavioural terms. In general, the learning outcomes for aparticular learning objective are organised in order of complexity.However, in the process of teaching and learning, learningactivities should be planned in a holistic and integrated mannerthat enables the achievement of multiple learning outcomesaccording to needs and context. Teachers should avoid
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employing a teaching strategy that tries to achieve each learningoutcome separately according to the order stated in thecurriculum specifications.
The Suggested Learning Activities provide information on thescope and dimension of learning outcomes. The learningactivities stated under the column Suggested Learning Activitiesare given with the intention of providing some guidance as tohow learning outcomes can be achieved. A suggested activitymay cover one or more learning outcomes. At the same time,more than one activity may be suggested for a particularlearning outcome. Teachers may modify the suggested activityto suit the ability and style of learning of their students. Teachersare encouraged to design other innovative and effective learningactivities to enhance the learning of biology.
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THEME: INTRODUCING BIOLOGYLEARNING AREA: 1.0 INTRODUCTION TO BIOLOGY
LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.1Understandingthe study ofBiology
Carry out small group discussionon the following and present thefindings:a) what is the study of Biology?b) the importance of Biology with
respect to the study of livingthings, environment, interactionbetween living things and theenvironment.
Construct a concept map based oninformation gathered on the
different fields of study and careersrelated to Biology.
Small group discussion on theimportance of the following:a) acquiring scientific skills,b) scientific method,c) practising scientific attitudes
and noble values.
A student is able to:
? state what the study of Biologyis,
? explain the importance ofBiology,
? list the different fields of studyin Biology,
? list the careers related toBiology,
? state various ways of studyingBiology,
fields bidang
career kerjaya
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.2Applyingscientific
investigation
Observe a situation and identify allthe variables. Suggest a questionthat is suitable for a scientific
investigation. Discuss to:a) form a hypothesis,b) plan the method of investigation
including selection of apparatusand work procedures.
Carry out an experiment:a) to collect and tabulate data,b) present data in a suitable form,c) interpret the data and draw
conclusion,d) write a complete report.
Carry out an experiment on themaking of bread using yeast in theabsence and presence of sugar.Record the time taken for thedough to double its size. For furtherinvestigations, salt is used.
During investigation, highlight theneed to practise scientific attitudesand noble values such as honesty
and accuracy in recording andverifying data.
A student is able to:
? identify variables in a given
situation,
? identify the relationship betweentwo variables to form ahypothesis,
? design and carry out a simpleexperiment to test thehypothesis,
? record and present data in asuitable form,
? interpret data to drawconclusions,
? write a report on an experiment,
? practise scientific attitudes andnoble values.
This activity helpsthe teacher to
assess studentscapabilities to carryout a scientificinvestigation.
These attitudes andvalues should beobserved in allinvestigations in
other learningareas.
scientific investigation penyiasatan saintifik
scientific attitudes sikapsaintifiknoble values nilai murni
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THEME: INVESTIGATING THE CELL AS A BASIC UNIT OF LIVING THINGSLEARNING AREA: 1.0 CELL STRUCTURE AND CELL ORGANISATION
LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.1Understandingcell structureand function
Prepare and study slides tocompare the epidermal cells ofonion or cells of Hydrillaleaf withhuman cheek cells. Observe, drawand label diagrams of an animalcell and a plant cell as seenthrough a light microscope.
Study electron micrographs ofanimal cells and plant cells toidentify cellular components of cell:a) plasma membrane and cell
wall,b) cytoplasm,c) organelles:
(i) nucleus: nucleolus,chromosomes,nucleoplasm and nuclearmembrane,
(ii) rough and smoothendoplasmic reticulum,
(iii) mitochondria,(iv) Golgi apparatus,(v) lysosomes,
(vi) ribosomes,(vii) chloroplasts,(viii) centrioles,(ix) vacuoles.
A student is able to:
? draw and label an animal cell,
? draw and label a plant cell,
? identify the cellular components
of an animal cell,
? identify the cellular componentsof a plant cell,
The structure of theorganelles is not
required.
cellular components komponen-komponen sel
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Work in small groups to matchcellular components to their
functions.
Students present a comparisonbetween the structure of an animalcell and a plant cell.
Discuss the relationship betweenthe density of certain organelleswith the function of specific cells:a) mitochondria with the function
of sperm cells, flight musclecells in insects and birds, cells
in the meristems,b) chloroplasts with the function of
palisade cells.
? state the functions of the cellularcomponents in an animal cell,
?state the functions of the cellularcomponents in a plant cell,
? compare and contrast an animalcell and a plant cell,
? relate the density of certainorganelles with the functions ofspecific cells.
relate mengiatkan
density - ketumpatan
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.2Understandingcell
organisation
Observe the living processes ofunicellular organisms such asfeeding, locomotion and
reproduction through computerisedanimation / video / mircoscope.
Carry out small group discussionon the following and present thefindings:a) cell specialisation in
multicellular organisms,b) the necessity for cell
specialization in multicellularorganisms
c) cell organisation in the
formation of tissues, organsand systems in humans,animals and plants.
Construct models of tissues,organs and systems in human,animals and plants.
A student is able to:? state the necessity for cell
specialisation in multicellular
organism as compared tounicellular organism,
? describe cell specialisation inmulticellular organisms,
? describe cell organisation in the
formation of tissues, organs andsystems in multicellularorganisms,
living processes proses -proses kehidupan
cell specialisation pengkhususan sel
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Conduct a discussion on thefollowing:
a) the meaning of internalenvironment,b) factors affecting the internal
environment includingtemperature, pH, osmoticpressure and glucose level.
c) it is important that theorganisms cells alwaysexperience conditions whichpermit efficient functioning, theinvolvement of various systemsin maintaining optimal internal
environment.
? state the meaning of internalenvironment,
?identify factors affecting theinternal environment,
? explain the necessity to maintainoptimal internal environment,
? describe the involvement ofvarious systems in maintainingoptimal internal environment.
A simpleexplanation.
1.3Appreciatingthe uniquenessof the cell
Discuss and predict the cellcondition without a particularcellular component.
Conduct a role-play activity to showthat cells become adapted fordifferent functions.
A student is able to:
? predict the state of certain cellswithout a particular cellularcomponent,
? illustrate that most cells arespecialised for the job that theyperform.
uniqueness keunikan
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LEARNING AREA: 2.0 MOVEMENT OF SUBSTANCES ACROSS THE PLASMA MEMBRANE
LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
2.1Analysing the
of movement ofsubstancesacross theplasmamembrane
Discuss the following:a) substances that are required by
cells,b) substances to be eliminated
from cells,c) the necessity for movement of
substances across the plasmamembrane.
Discuss the structure of the plasmamembrane as comprising thephospholipid bilayer, carrier proteinand pores.
Conduct an experiment, usingstarch suspension and glucosesolution, to study the movement ofsubstances across egg membraneor Visking tubing.
Discuss the properties of theplasma membrane as a semi-permeable membrane.
Discuss the movement of soluble
substances across the plasmamembrane through simple diffusionand facilitated diffusion.
Carry out an activity to showosmosis using a simpleosmometer.
A student is able to:
? state the substances required by
living cells,? state the substances that have
to be eliminated from cells,
? explain the necessity formovement of substances acrossthe plasma membrane,
? describe the structure of theplasma membrane,
? describe the permeability of theplasma membrane,
? explain the movement of soluble
substances across the plasmamembrane through the processof passive transport,
? explain the movement of watermolecules across the plasmamembrane by osmosis,
Only a brief accountof the structure ofthe plasmamembrane isrequired.
permeability - ketelapan
simple diffusion resapanringkas
facilitated diffusion
resapan berbantu
passive transport pengangkutan pasifactive transport -pengangkutan aktif
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Discuss the movement ofsubstances across the plasmamembrane through active
transport.
Conduct a simulation activity toshow the movement of substancesacross the plasma membranethrough passive transport andactive transport.
Use computer simulation to showthe movement of substancesacross the plasma membrane.
Discuss the processes of passivetransport and active transport inliving organisms:a) gaseous exchange in the alveoli
and blood capillaries (simplediffusion),
b) absorption of digested food inthe villus (facilitated diffusion),
c) absorption of water by root hairsof a plant (osmosis),
d) ion intake by root hairs of a plant
(active transport).
? explain the movement ofsubstances across the plasmamembrane through the process
of active transport,
? explain the process of passivetransport in living organismsusing examples,
? explain the process of activetransport in living organismsusing examples,
Only a basicexplanation of theactive transport
process is required.
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Construct a concept map on themovement of substances acrossthe plasma membrane.
Use a graphic organiser tocompare and contrast passivetransport and active transport.
? compare and contrast passivetransport and active transport.
2.2Understandingthe movementof substancesacross theplasma
membrane ineveryday life
Carry out activities to study theeffects of hypotonic and hypertonicsolutions on plant and animal cells:a) plasmolysis and deplasmolysis
in plant cells,b) haemolysis and crenation in red
blood cells.
Discuss the following:a) hypotonic, hypertonic and
isotonic solutions,b) plasmolysis, deplasmolysis,
haemolysis and crenation,c) flaccidity and turgidity of plant
cells.Carry out an investigation usingvarious concentrations of salt orsugar solutions to determine the
concentration of external solutionwhich is isotonic to the cell sap ofplant tissues.
A student is able to:
? explain what hypotonic,hypertonic and isotonic solutionsare,
? explain the effects of hypotonic,
hypertonic and isotonic solutionson plant cell and animal cell,
? explain plasmolysis,deplasmolysis, haemolysis andcrenation,
? design an experiment todetermine the concentration ofexternal solution which isisotonic to cell sap,
The use of humanblood isdiscouraged.
The concentration ofthe external solutionwhich is isotonic to
the cell sap isdetermined from theplotted graph.
effects - kesan
turgidity - kesegahan
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Discuss and make an inference onthe concentration of cell sap inplant tissues which is equivalent to
the concentration of isotonicsolution.
Discuss and correlate themovement of substances acrossthe plasma membrane with thedifference in concentration of theexternal solution and that of the cellsap.
Discuss the following:a) wilting of plants caused by the
excessive use of chemicalfertilisers,
b) preservation of food using saltor sugar.
? make an inference on theconcentration of cell sap in planttissues,
? relate the movement ofsubstances across plasmamembrane with concentrationgradient,
? explain the phenomenon of
wilting in plants using examples,
? explain the preservation of foodusing examples.
Discussion shouldbe based on theconcepts of osmosis
and plasmolysis.
wilting layu
preservation - pengawetan
2.3Appreciatingthe movementof substancesacross the
plasmamembrane
Compose poems to appreciate themovement of substances acrossthe plasma membrane.
A student is able to:
? explain the necessity ofmovement of substances acrossthe plasma membrane whichoccurs in a continuous and
controlled manner for survival ofa cell.
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LEARNING AREA: 3.0 CHEMICAL COMPOSITION OF THE CELL
LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
3.1Understanding
the chemicalcomposition ofthe cell
Carry out small group discussionon the following and present the
findings:a) elements in the cell, including
carbon, hydrogen, oxygen,nitrogen sulphur, phosphorus,calcium, potassium,magnesium, chlorine, sodiumand ferum,
b) the presence and importance ofchemical compounds in thecell.
A student is able to:
? state the elements in the cell,
? list the chemical compounds inthe cell,
? explain the importance oforganic compounds in the cell,
? explain the importance of waterin the cell.
Chemicalcompounds in the
cell are limited tocarbohydrates,lipids, proteins,nucleic acids andwater only.
A brief account onthe importance ofcarbohydrates,lipids, proteins andnucleic acids isrequired.
organic compounds
sebatian organik
3.2Understandingcarbohydrates
Carry out small group discussionon the following and present thefindings:a) elements in carbohydrates,b) types of carbohydrates, i.e.
monosaccharides,disaccharides andpolysaccharides, usingexamples,
c) the formation and breakdown ofdisaccharides, such as
maltose, sucrose and lactose,d) the formation and breakdown of
polysaccharides, such asstarch, glycogen and cellulose.
Conduct an activity to differentiatebetween reducing and non-reducing sugars.
A student is able to:
? state the elements incarbohydrates,
? state the types ofcarbohydrates,
? explain the formation andbreakdown of disaccharides andpolysaccharides.
A detailed molecularstructure is notrequired.
A brief account ofcondensation andhydrolysis reactionsis required.
formation pembentukan
breakdown - penguraian
reducing sugar gulapenurun
non-reducing sugar gulabukan penurun
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
3.3Understandingproteins
Carry out small group discussionon the following and present thefindings:
a) elements in protein, such ascarbon, hydrogen, oxygen,sulphur, nitrogen andphosphorus,
b) dipeptides and polypeptides,c) the formation and breakdown of
dipeptides and polypeptides,d) essential amino acids and non-
essential amino acids.
Use charts to illustrate the variousprotein structures, i.e. primary,secondary, tertiary and quartenary.
A student is able to:
? state the elements in proteins,
? state the various structures ofproteins,
? explain the formation andbreakdown of dipeptides andpolypeptides,
? explain the meaning of essentialamino acids and non-essential
amino acids.
A detailed molecularstructure is notrequired.
A brief account ofcondensation andhydrolysis reactionsis required.
3.4Understandinglipids
List the main types of lipids:a) fat,b) oil,c) wax,d) phospholipids,e) steroids, such as cholesterol,
testosterone, oestrogen, andprogesterone.
A student is able to:
? state the elements in lipids,
? state the main types of lipids, A detailed molecularstructure is notrequired.
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Carry out small group discussionon the following and present thefindings:
a) elements in lipids,b) components of fats and oils ,c) formation and breakdown of
fats and oils.
Use a graphic organiser tocompare saturated fats andunsaturated fats.
? state the components of fatsand oils.
? explain the formation and
breakdown of fats and oils,
? compare and contrast saturatedfats and unsaturated fats.
A brief account ofcondensation andhydrolysis reactions
is required.
saturated fats lemak tepu
unsaturated fats lemak
tak tepu
3.5Understanding
enzymes
Discuss on the following:a) what enzymes are,
b) enzyme requirement in theliving process,c) general characteristics of
enzyme,d) naming of enzyme based on
the substrate,e) sites of enzyme synthesis,f) intracellular and extracellular
enzymes and examples.
Conduct a role-play activity to showthe involvement of ribosomes,
endoplasmic reticulum, and Golgibody in the production ofextracellular enzyme.
A student is able to:
? state what enzymes are,
? explain why enzymes areneeded in life processes,
? list the general characteristics ofenzymes,
? relate the name of enzyme tosubstrate,
? state sites where enzymes aresynthesised,
? state the meaning of intracellularenzymes and extracellularenzymes,
? explain the involvement ofspecific organelles in theproduction of extracellularenzymes,
intracellular enzyme enzim intrasel
extracellular enzyme enzim luar sel
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Conduct experiments to study theeffects of pH and temperature onthe activities of amylase and
pepsin.
Discuss the effects of enzymeconcentration and substrateconcentration on enzyme activity.
Discuss the mechanism of enzymeaction using the lock and keyhypothesis.
Discuss and correlate pH,temperature, enzyme concentrationand substrate concentration onenzyme activity using the lock andkey hypothesis.
Gather information from theInternet and other sources on theuses of enzymes in:a) daily life, e.g. tenderising meatb) industry e.g. food processing
and detergent manufacturing.
? explain the effects of pH,temperature, enzymeconcentration, and substrate
concentration on enzymeactivity,
? explain the mechanism ofenzyme action,
? relate the mechanism of enzymeaction with pH, temperature,enzyme concentration andsubstrate concentration,
? explain the uses of enzymes indaily life and industry usingexamples.
concentration - kepekatan
substrates substrat
3.6Realising theimportance ofthe chemicalcomposition incells
Conduct a role play or story tellingsession to predict theconsequences of deficiency in oneof the chemical components in thecell.
? predict the consequences ofdeficiency in carbohydrates,protein, lipids or enzymes in thecell.
deficiency - kekurangan
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LEARNING AREA: 4.0 CELL DIVISION
LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
4.1Understanding
mitosis
Conduct a brainstorming session
on the following:a) the need for production of new
cells in organisms,b) the need for production of new
cells identical to parent cells.
Derive the meaning andsignificance of mitosis from thebrainstorming session.
Study charts to identify the variousphases of the cell cycle.
Make models to demonstratemitosis and cytokinesis.
Prepare and observe a slide ofonion root tip to identify differentstages of mitosis.
Study the process of controlled anduncontrolled mitosis andcytokinesis through simulation,
computerised animation or video.
A student is able to:
? state the necessity for theproduction of new cells inorganisms,
? explain the necessity for theproduction of new cells identicalto parent cells,
? state the significance of mitosis,
? identify the phases in the cell
cycle,
? explain the process of mitosisand cytokinesis,
? arrange the various stages ofmitosis in the correct sequence,
? compare and contrast mitosisand cytokinesis in animal celland plant cell,
identical - seiras
significance - kepentingan
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Conduct a brainstorming session tocome up with examples on mitosisas a controlled process for the
perpetuity of living things such asregeneration of lizard tail, certainplant parts and the healing of skin.
Gather information on diseases,including cancer or tumour, causedby uncontrolled mitosis in livingthings.
Make a trip to a research instituteto study tissue culture technique.
Conduct a debate or forum oncloning issues.
? explain the importance ofcontrolled mitosis,
? explain the effects ofuncontrolled mitosis in livingthings,
? describe the application ofknowledge on mitosis incloning,
? explain the advantages anddisadvantages of cloning.
Techniques ofcloning includetissue culture.
controlled mitosis mitosisterkawal
regeneration pertumbuhan / penjanaansemula
uncontrolled mitosis mitosis luar kawal
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
4.2Understandingmeiosis
Discuss the following:a) trait inheritance in offsprings,b) the need to maintain diploid
chromosomal number from one
generation to another,c) the need to produce gametes
with haploid number ofchromosomes,
d) the uniqueness of diploidnumber of chromosomes inorganisms,
e) the significance of meiosis,f) the type of cell that undergoes
meiosis in human, animals andplants.
Observe the process of meiosisthrough computerised animation,photomicrograph, prepared slides,or video.
Use simulation activities to showchanges in chromosome behaviourduring meiosis I and meiosis II
Use graphic organisers to compareand contrast:
a) Meiosis I and meiosis II,b) Meiosis and mitosis.
A student is able to:
? state the necessity of traitinheritance in offspring for
continuation of life,? state the necessity to maintain
diploid chromosomal numberfrom generation to generation,
? state the necessity forproduction of haploid gametes insexual reproduction,
? state the significance of meiosis,
? identify the type of cell thatundergoes meiosis,
? explain the process of meiosis,
? arrange the various stages ofmeiosis in the correct order,
? compare and contrast meiosis Iand meiosis II,
? compare and contrast meiosis
and mitosis.
A detailedexplanation ofProphase 1 is notrequired.
trait inheritance pewarisan cirioffspring anak
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THEME: INVESTIGATING THE PHYSIOLOGY OF LIVING THINGSLEARNING AREA: 1.0 NUTRITION
LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.1
Understandingtypes ofnutrition
Observe and identify types ofnutrition in various organisms.
Discuss autotrophic andheterotrophic nutrition withreference to chemosynthesis,photosynthesis, holozoic nutrition,saprophytism, and parasitism.
Use a graphic organiser to showthe types of nutrition.
Conduct an activity to classifyvarious organisms according totypes of nutrition.
A student is able to:
? state the types of nutrition,
? explain autotrophic nutrition,? explain heterotrophic nutrition,
? classify organisms according tothe types of nutrition.
1.2Applying theconcept ofbalanced diet
Carry out small group discussionon the following and present thefindings:a) requirements of a balanced diet,b) factors affecting the daily energy
requirement such as age, sex,body weight and occupation.
Conduct an activity to determinethe energy value in food samples.
Design activities to test for thepresence of starch, reducing sugar,non-reducing sugar, protein andlipid in food samples.
A student is able to:
? explain the necessity for abalanced diet,
? explain the factors affecting thedaily energy requirement of thehuman body,
? determine the energy value infood samples,
? determine the nutrient content indifferent food samples,
The unit for energyused is Joule.
balanced diet giziseimbang
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Conduct an experiment todetermine the Vitamin C content invarious fruit juices.
Match the vitamins with theirsources, functions and effects ofdeficiency.
Match the minerals with theirsources, functions and effects ofdeficiency.
Discuss the sources, functions anddeficiency of roughage.
Discuss the sources and functionsof water in the body.
Carry out a group discussion toformulate and justify an appropriatediet menu based on a nutrient chartfor the following target groups:a) pregnant mothers,b) infants,c) children,d) teenagers,e) athletes,f) people with specific diseases,g) the aged,
h) vegetarians.
? explain the functions andsources of vitamins in a diet tomaintain health,
? explain the functions andsources of minerals in a diet tomaintain health,
? explain the functions andsources of roughage / dietaryfibre in a diet,
? explain the functions of water in
the body,
? justify the selection of anappropriate balanced diet for atarget group.
roughage / dietary fibre pelawas
target group kumpulansasaran
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.3Understandingmalnutrition
Carry out small group discussionon the following and present thefindings:
a) meaning of malnutrition,b) effects of deficiency in proteins,
vitamins, minerals, on health,c) effects of excessive intake of
carbohydrates, lipids, vitaminsand minerals on health,
d) a diet low in saturated fats helpreduce the chance ofcontracting cardiovasculardisease,
e) ways to reduce the risk of highblood pressure, diabetes
mellitus and osteoporosis.
A student is able to:
? explain what malnutrition is,? explain the effects of
malnutrition using examples,
? describe ways to reduce thechance of contracting certainhealth problems due to onesdiet,
? describe ways to reduce theeffects of certain healthproblems.
1.4Analysing fooddigestion
Discuss the following:a) glucose, amino acids and lipids
are always required by the cellto carry out metabolicprocesses,
b) complex substances likecarbohydrates, proteins andlipids need to be digested.
Draw and label parts of the humandigestive system.a)
A student is able to:
? state the substances required bythe cell to carry out metabolicprocesses,
? list the complex substances thatneed to be digested,
? explain the necessity fordigestion of complexsubstances,
? draw and label the humandigestive system,
?
metabolic processes proses metabolik
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Discuss the functions of digestivejuices, including saliva, gastricjuice, pancreatic juice, intestinal
juice and other substances, i.e.hydrochloric acid and bile that aidthe process of digestion.
Discuss the digestion ofcarbohydrates, proteins and fats onthe following aspects:a) specific location of each
digestive process,b) chewing of food,c) movement of food,
d) glands involved,e) digestive enzymes,f) suitable pH for each enzyme
action,g) substrates and products.
Identify the parts of digestivesystem in ruminants and rodents.
Discuss the digestion of cellulosein ruminants (eg. cow) and rodents(rabbit).
Use graphic organiser to compareand contrast the process ofcellulose digestion in humans,ruminants and rodents.
? state the digestive juices andsubstances that aid in theprocess of digestion in human,
? describe the functions of thedigestive juices and substances,
? explain the digestion ofcarbohydrates, proteins andlipids in the human body,
? identify parts of digestive systemin ruminants and rodentsinvolved in the digestion ofcellulose,
? describe the digestion ofcellulose in ruminants androdents,
? compare and contrast thedigestive process in humans,ruminants and rodents,
digestive juices juspencernaan
bile - hempedu
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Plan and conduct experiments tostudy the enzyme actions on starchand protein food samples.
Collect information and discussproblems related to food digestion:b) incomplete digestion of food,c) bile stones preventing the flow
of bile,reduced production of specificdigestive enzyme.
? design experiments to study thedigestion of starch and proteinsin food samples,
? describe problems related tofood digestion.
1.5Understandingthe processes
of absorptionandassimilation ofdigested food
Examine models or diagrams of thedigestive system and cross-sectionof the small intestine. With
reference to the models ordiagrams discuss the following:a) adaptation of the small
intestine,b) absorption process of amino
acids, glucose, fatty acids,glycerol, vitamins and mineralsin the villus.
Carry out an activity to study themovement of substances throughthe Visking tubing.
A student is able to:
? identify the parts of the digestivesystem involved in absorption of
digested food,? explain the adaptive
characteristic of the digestivesystem related to absorption,
? draw and label the structure of avillus,
? explain the process ofabsorption in the villus,
?
adaptive characteristic
ciri-ciri penyesuaian
absorption - penyerapan
small intestine usus kecil
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Based on the above activitycorrelate the movement of foodsubstances through the Visking
tubing with nutrient absorption inthe small intestine.
Discuss the absorption of waterand minerals in the colon.
Using diagrams, charts orcomputerised animation discuss:a) the transport of amino acids,
glucose, water soluble vitaminsand minerals by the circulatorysystemi) from the small intestine to
the liver through the hepaticportal vein,
ii) from the liver to the bodycells,
b) transport of lipids and fatsoluble vitamins.
Make a schematic diagram to showthe transport of nutrients from theintestine to the body cells.
? make an analogy on the processof absorption in the smallintestine,
? explain the absorption of waterand minerals in the colon,
? describe the transport ofnutrients by the circulatorysystem for assimilation,
transport pengangkutan
circulatory system sistemperedaran
liver hati
assimilation - assimilasi
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Discuss the following functions ofthe liver:a) storage of nutrients,
b) processing the products ofdigestion i.e. excess glucoseand amino acids,
c) detoxification.
Discuss the process of assimilationby the body cells.
? explain the main functions of theliver,
? describe the process ofassimilation.
1.6Understandingthe formation offaeces and
defecation
With reference to diagrams, chartsor model of the digestive system,identify the colon and rectum.
Carry out small group discussionon the following and present thefindings:a) the formation of faeces,b) the role of microorganisms in
the colon,c) effects of antibiotics on the
microorganisms in the colon,d) what defecation is,e) the importance of defecation,
f) importance of high fibre diets,
g) defecation related problems,i.e. constipation, colon cancerand haemorrhoids.
A student is able to:
? identify the part of the digestivesystem where the formation offaeces takes place,
? describe the formation offaeces,
? explain the role ofmicroorganisms in the colon andthe effect of antibiotics on them,
? explain what defecation is,
? explain the importance ofdefecation,
? explain the importance of highfibre diets,
? describe the problems related todefecation.
defecation penyahtinjaan
faeces tinja
constipation sembelit
haemorrhoids - buasir
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.7Evaluatingeating habits
Carry out small group discussionon the following and present thefindings:a) relationship between eating
habits and health problemssuch as:(i) gastritis,(ii) obesity,(iii) anorexia nervosa,(iv) bulimia,
b) evaluate the nutrient contentsof food based on food labels oradvertisments,
c) evaluate the eating habits ofclassmates.
A student is able to:
? relate eating habits with health
problems,
? evaluate critically whether aparticular eating habit is good orbad.
Eating habits
involve thefrequency and timeof eating and thetype of foodconsumed.
eating habits tabiat
makanhealth problems masalahkesihatan
1.8Realising theimportance of ahealthydigestivesystem
Conduct an activity to predict theeffects of a defective digestivesystem.
Conduct a discussion on ways totake care of the digestive system,such as good eating habits, avoidjunk food, try to cut down on sweetand fatty foods.
A student is able to:
? predict the effects of a defectivedigestive system on health,
? take care of the digestivesystem for ones well-being.
defective digestive systemsistem pencernaan yangtidak berfungsi dengan baik
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.9Understandingthe importanceof
macronutrientsandmicronutrientsin plants
Carry out small group discussionon the following and present thefindings:a) the elements required by
plants,b) classify the elements required
by plants based on the amountneeded:(i) macronutrients consisting
of carbon, hydrogen,oxygen, nitrogen,phosphorus, potassium,calcium, magnesium andsulphur,
(ii) micronutrients consisting ofboron, molybdenum, zinc,
manganese, copper andferum.
Plan and conduct an experiment onplants to study the effects ofmacronutrient deficiency i.e.nitrogen, phosphorus, potassium,calcium, magnesium and sulphur.Discuss and correlate the effects ofmacronutrient deficiency with thefunction of the macronutrientsbased on the results of the
experiment.
A student is able to:
? list elements required by plants,
? classify elements required byplants based on the amountneeded,
? design an experiment to studythe effects of macronutrientdeficiency in plants,
? relate the effects ofmacronutrient deficiency withthe function of macronutrients,
Maize seedlingsmay be used for thisexperiment.
elements unsur-unsur
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Collect and interpret data fromvarious sources such as theInternet on the function of each
macronutrient in plants.
Discuss the function ofmirconutrients and effects ofmicronutrient deficiency in plants.
? explain the function of eachmacronutrient in plants,
? state the function of
micronutrients in plants,
? state the effects of micronutrientdeficiency in plants.
1.10Understandingphotosynthesis
Students read about the discoveryof photosynthesis and extractimportant facts from it.
Study a cross-sectional model of aleaf. Draw and label it.
Discuss the following:a) functions of the parts of a leaf,b) adaptation of the leaf for
optimal photosynthesis.
Carry out an activity to investigate
the adaptation of plants such ashibiscus, water lily, Hydrillaandcactus with respect to:a) distribution of stomata,b) distribution of chloroplasts.
A student is able to:
? describe the development thatleads to the discovery ofphotosynthesis,
? state the substances required
for photosynthesis,? state the substances produced
from photosynthesis,
? draw and label the cross-section of a leaf,
? state the function of each part ofthe leaf with respect tophotosynthesis,
? explain leaf adaptation tooptimise photosynthesis,
? explain how plants from differenthabitats are adapted to carry outphotosynthesis.
adaptation - penyesuaian
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.11Understandingthe mechanismof
photosynthesis
With reference to the structure ofchloroplast discuss the light anddark reactions of photosynthesis
with respect to:a) substances required.b) location of reaction.c) products of reaction.
Draw a simple schematic diagramof the light and dark reactions inphotosynthesis.
Discuss the following:a) compare and contrast the light
reaction and dark reaction in
photosynthesis,b) correlate light reaction with darkreaction in photosynthesis.
Write an equation to represent theoverall process of photosynthesis.
A student is able to:
? identify the parts of chloroplast
related to photosynthesis,? explain the light reaction of
photosynthesis,
? explain the dark reaction ofphotosynthesis,
? compare and contrast lightreaction and dark reaction inphotosynthesis,
? relate light reaction with darkreaction in photosynthesis,
? write an equation to representthe process of photosynthesis.
Detailed structure ofchloroplast is not
required.
Detailed pathwaysfor light and darkreactions are notrequired.
light reaction tindakbalascahaya
dark reaction tindakbalasgelap
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.12Synthesisingfactorsaffecting
photosynthesis
Conduct a brainstorming session toidentify the factors affecting therate of photosynthesis i.e.concentration of carbon dioxide,
light intensity and temperature.Plan and carry out an experimentto study the effect of light intensityon the rate of photosynthesis.
Carry out small group discussionon the effects of light intensity,temperature and concentration of
carbon dioxide on the rate ofphotosynthesis.
Plan a strategy based on factorsaffecting the rate of photosynthesisto ensure crop productionthroughout the year in countrieswith four seasons.
A student is able to:
? identify the factors affecting therate of photosynthesis,
? design an experiment toinvestigate the effect of lightintensity on the rate ofphotosynthesis,
? identify the factor that limits therate of photosynthesis atdifferent light intensity,
? explain the effects oftemperature and concentrationof carbon dioxide on the rate ofphotosynthesis,
? explain the difference in the rateof photosynthesis in plantsthroughout the day based on thechanges in light intensity andtemperature,
? identify some ways to meet theneed of increasing theproductivity of crops based onfactors affecting the rate ofphotosynthesis.
light intensity keamatancahaya
limiting factor- faktorpenghad
crops - tanaman
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
1.13Practising acaring attitudetowards plants
Compose a poem or lyric of a songto show appreciation of the role ofphotosynthesis in ensuring theperpetuation of life.
Conduct a planting project in thescience resource garden or schoolcompound.
A student is able to:
? tell why we need to take goodcare of plants,
? identify cases of mishandlingor destruction of plants.
1.14Understandingthe technologyused in foodproduction
Carry out small group discussionon the following and present thefindings:a) the quantity of food needed for
the present and future populationof the country,
b) the need for improving thequality and quantity of food forthe country in line with thenational food production policy,
c) effort by various agencies todiversify food production,
d) methods used to improve thequality and quantity of foodproduction through the following:(i) direct seeding for rice,(ii) hydroponics and aeroponics,(iii) breeding,
(iv) tissue culture,(v) genetic engineering(vi) soil management,(vii) biological control.
A student is able to:
? explain the need for improvingthe quality and quantity of food,
? explain the effort to diversifyfood production,
? explain ways to improve thequality and quantity of foodproduction in the country.
improving -menambahbaikkan
diversify - mempelbagaikan
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Conduct a field trip to relevantagencies such as the Institute ofAgricultural Research and
Development of Malaysia (MARDI),Agriculture Department andFishery Department.
Carry out a vegetable plantingproject.
1.15Evaluating thetechnologicaldevelopment in
foodprocessing
Discuss the need for foodprocessing based on the following:a) overcoming the factors
causing spoilage of food such
as the action of microorganismsand oxidation,b) extending the lifespan of food,c) avoiding food wastage,d) diversifying the uses of food
like milk and dairy products,e) ensuring sufficient food supply.
Prepare a portfolio on thetechnological development of foodprocessing from the early days tillthe present.
A student is able to:
? explain the necessity for foodprocessing,
? describe the development offood processing technology,
food processing pemprosesan makanan
development -perkembangan
food spoilage kerosakanmakanan
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Correlate the following foodprocessing methods with factorscausing food spoilage:
i. cooking,ii. using salt, sugar and vinegar,iii. fermentation process,iv. drying,v. pasteurization,vi. canning,vii. refrigeration.
Conduct a forum entitled Theeffects of processed food onhealth.
? relate food processing methodswith factors causing foodspoilage,
? assess the methods of foodprocessing to justify the choiceof consuming certain processedfood.
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LEARNING AREA: 2.0 RESPIRATION
LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
2.1Understanding
the respiratoryprocess inenergyproduction
Discuss the following:
a) living processes require energy,
b) the main substrate forrespiration, that is glucose, isobtained from the following:(i) the digestion of
carbohydrates in humanand animals,
(ii) the process ofphotosynthesis in plants.
Carry out a discussion on the types
of respiration.
Carry out an activity to showaerobic respiration.
Discuss the energy production inaerobic respiration.
Conduct an experiment toinvestigate anaerobic respiration inyeast.
A student is able to:
? state that all living processesrequire energy,? identify the main substrate for
producing energy,
? state the two types ofrespiration,
? explain what cell respiration is,
? explain the energy productionfrom glucose during the processof aerobic respiration,
? state the conditions leading toanaerobic respiration in cells,
? explain the process of anaerobic
respiration in yeast,
living processes proses-proses kehidupan
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Discuss the following:a) condition leading to anaerobic
respiration in cells,
b) the process of anaerobicrespiration in human muscles.
Use a graphic organiser tocompare and contrast aerobicrespiration with anaerobicrespiration.
? explain the process of anaerobicrespiration in human muscles,
? write the chemical equations for
aerobic and anaerobicrespiration,
? compare and contrast aerobicrespiration with anaerobicrespiration.
2.2Analysing therespiratory
structures andBreathingmechanisms inhuman andanimal
Observe graphics and livespecimens and discuss therespiratory structures in human and
other organisms includingprotozoa, insects, fish andamphibians.
Conduct an activity to compare thetotal surface area of a flat card witha corrugated card, and correlatethe increase in total surface areawith the modified surface structure.
Discuss the relationship betweenthe total surface area of the
respiratory structures and theefficiency of gaseous exchange invarious organisms.
A student is able to:
? state the respiratory structures
in human and some animals,
? make an inference on thevarious adaptations of therespiratory structures,
respiratory structures
struktur pernafasan
corrugated card kadlipatan beralun
adaptations - penyesuaian
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
Observe the respiratory structuresto generalise the characteristics ofthe respiratory surfaces in human
and other organisms such asprotozoa, insects, fish andamphibians.
Construct or use a model that canbe manipulated to explain thebreathing mechanism in human.
Discuss the breathing mechanismof other organisms such asprotozoa, insects, fish andamphibians.
Use graphic organiser to compareand contrast the human respiratorysystem with that of otherorganisms.
? describe the characteristics ofrespiratory surfaces in humanand other organisms,
? describe the breathingmechanism in human and otherorganisms,
? compare and contrast thehuman respiratory system withthat of other organisms.
respiratory surfaces permukaan respirasi
breathing mechanism mekanisma pernafasan
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
2.3Understandingthe concept ofgaseous
exchangeacross therespiratorysurfaces andtransport ofgases inhuman
Using a diagram, discuss theprocess of gaseous exchangeacross the surface of the alveolusand blood capillaries in the lungs in
relation to:a) the difference in partialpressure of respiratory gases inthe air of the alveolus andblood capillaries in the lungs,i.e:(i) partial pressure of oxygen
is higher in the air of thealveolus compared to thepartial pressure of oxygenin the blood capillaries,
(ii) partial pressure of carbon
dioxide is lower in the airof the alveolus comparedto the partial pressure ofcarbon dioxide in the bloodcapillaries.
b) the difference in partialpressure of oxygen and carbondioxide in the blood enteringthe alveolus with the bloodleaving the alveolus i.e.:(i) partial pressure of oxygen
is lower in the bloodentering the alveoluscompared to the partialpressure of oxygen in theblood leaving the alveolus.
A student is able to:
? describe the process of gaseousexchange across the surface of
the alveolus and bloodcapillaries in the lungs,
gaseous exchange pertukaran gas
blood capillaries kapilaridarah
partial pressure tekanansepara
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
(ii) partial pressure of carbondioxide is higher in theblood entering the alveolus
compared to the partialpressure of carbon dioxidein the blood leaving thealveolus.
Discuss the following:a) the transport of respiratory
gases in human,b) the exchange of respiratory
gases between the blood andbody cells.
Use schematic diagram to explainthe exchange and transport ofrespiratory gases in human.
Conduct an experiment toinvestigate the differences betweeninhaled and exhaled air in terms ofoxygen, carbon dioxide and heatcontent.
Study the process of respiratorygas exchange and transport using
simulations and computerisedanimations.
? explain the transport ofrespiratory gases,
? explain the process of gaseousexchange between the bloodand body cells,
? distinguish the composition of
inhaled and exhaled air.
Caution:Handle the followingsolutions with care:Alkaline pyrogallateand concentratedpotassium
hydroxide.
inhaled air udara sedutan
exhaled air udarahembusan
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LearningObjectives
Suggested Learning Activities Learning Outcomes Notes Vocabulary
2.4Understandingthe regulatorymechanism in
respiration
Conduct an experiment to studythe effects of a vigorous exerciseon the rate of respiration and rateof heart beat.
Conduct a discussion on thefol
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