GENETICS

Introduction to Genetics and Variation

By the end of the lesson, the learner should be able to:
Define genetics, heredity and variation. Explain the importance of studying genetics. Identify examples of variation in organisms.

Q/A on prior knowledge of inheritance. Brainstorming on observable differences in humans. Discussion on the meaning of genetics and heredity.

Textbook, chalkboard, chalk

KLB Secondary Biology Form 4, Pages 1-2

GENETICS

Observable Variations in Human Beings
Discontinuous and Continuous Variation
Causes of Variation
Chromosome Structure

By the end of the lesson, the learner should be able to:
Observe and record variations in tongue rolling, fingerprints and height. Distinguish between different types of variations. Create data tables.

Practical activity on tongue rolling. Fingerprint examination using ink pads. Height measurement and data recording.

Ink pad, plain paper, metre rule, exercise books
Graph paper, rulers, height data from previous lesson, textbook
Textbook, chalkboard, chalk
Textbook, chalkboard, chalk, exercise books, pencils

KLB Secondary Biology Form 4, Pages 2-3

GENETICS

Chromosome Behaviour During Mitosis
Chromosome Behaviour During Meiosis
DNA Structure and Replication

By the end of the lesson, the learner should be able to:
Demonstrate chromosome behaviour during mitosis. Identify stages of mitosis. Explain importance of mitosis.

Practical activity using colored threads to model mitosis stages. Creating paper models of mitotic stages. Group discussions.

Colored threads (6cm and 3cm), scissors, manila paper, string for tying knots
Colored threads, manila paper, textbook
Textbook, chalkboard, chalk, exercise books

KLB Secondary Biology Form 4, Pages 6-8

GENETICS

DNA and Protein Synthesis
Mendel's Experiments and First Law

By the end of the lesson, the learner should be able to:
Explain role of DNA in protein synthesis. Describe mRNA formation and function. Understand genetic code concept.

Exposition on transcription and translation. Discussion on messenger RNA. Examples of genetic codes using chalkboard diagrams.

Textbook, chalkboard, chalk

KLB Secondary Biology Form 4, Pages 12-13

GENETICS

Monohybrid Inheritance Concepts
Genetic Crosses and Punnet Squares

By the end of the lesson, the learner should be able to:
Define monohybrid inheritance, genotype, phenotype. Distinguish between dominant and recessive genes. Explain homozygous and heterozygous conditions.

Exposition on genetic terminology. Practice using genetic symbols on chalkboard. Discussion on gene expression patterns.

Textbook, chalkboard, chalk, exercise books
Textbook, chalkboard, chalk, exercise books, pencils

KLB Secondary Biology Form 4, Pages 15-17

GENETICS

Probability in Inheritance
Modeling Random Gamete Fusion

By the end of the lesson, the learner should be able to:
Explain probability in genetic inheritance. Calculate phenotypic and genotypic ratios. Demonstrate random events using coin tossing.

Mathematical analysis of genetic ratios. Coin tossing experiment to demonstrate probability. Statistical interpretation of results.

Coins, exercise books for recording, calculators (if available), textbook
Different colored beans (or maize grains), small containers, exercise books

KLB Secondary Biology Form 4, Pages 18-19

GENETICS

Complete Dominance Problems

By the end of the lesson, the learner should be able to:
Solve genetic problems involving complete dominance. Analyze inheritance patterns in garden peas. Practice genetic calculations.

Worked examples of genetic problems on chalkboard. Practice sessions with various characteristics. Group problem-solving.

Textbook, chalkboard, chalk, exercise books

KLB Secondary Biology Form 4, Pages 20-21

GENETICS

Incomplete Dominance
ABO Blood Group System

By the end of the lesson, the learner should be able to:
Define incomplete dominance. Analyze inheritance in four o'clock plants. Compare with complete dominance patterns. Draw genetic crosses showing blending.

Exposition on incomplete dominance using chalkboard diagrams. Genetic crosses showing blending inheritance. Practice problems with flower colors.

Textbook, chalkboard, chalk, colored chalk (if available)
Textbook, chalkboard, chalk, exercise books

KLB Secondary Biology Form 4, Pages 22-24

GENETICS

Rhesus Factor and Unknown Genotypes
Sex Determination

By the end of the lesson, the learner should be able to:
Describe Rhesus factor genetics. Explain test cross and back cross methods. Use selfing to determine genotypes.

Exposition on Rh factor inheritance using chalkboard. Demonstration of test cross technique. Practice problems on genotype determination.

Textbook, chalkboard, chalk, exercise books
Textbook, chalkboard, chalk

KLB Secondary Biology Form 4, Pages 25-26

GENETICS

Gene Linkage
Sex-linked Inheritance - Color Blindness

By the end of the lesson, the learner should be able to:
Define gene linkage and linkage groups. Explain inheritance of linked genes. Understand why some genes are inherited together.

Exposition on linked genes using simple diagrams. Examples from fruit fly genetics drawn on chalkboard. Discussion on chromosome maps.

Textbook, chalkboard, chalk
Textbook, chalkboard, chalk, exercise books, rulers

KLB Secondary Biology Form 4, Pages 27-28

GENETICS

Sex-linked Inheritance - Haemophilia
Crossing Over and Recombination

By the end of the lesson, the learner should be able to:
Explain haemophilia inheritance. Understand carrier females and affected males. Analyze inheritance through generations.

Exposition on haemophilia genetics. Drawing inheritance patterns on chalkboard. Practice with pedigree construction and analysis.

Textbook, chalkboard, chalk, exercise books
Textbook, chalkboard, chalk, colored chalk

KLB Secondary Biology Form 4, Pages 30-31

GENETICS

Chromosomal Mutations - Non-disjunction

By the end of the lesson, the learner should be able to:
Define chromosomal mutations. Explain non-disjunction during meiosis. Describe Down's syndrome and other chromosome disorders.

Exposition on non-disjunction using chalkboard diagrams. Drawing normal vs abnormal chromosome sets. Discussion on genetic disorders.

Textbook, chalkboard, chalk, exercise books

KLB Secondary Biology Form 4, Pages 32-35

GENETICS

Chromosomal Mutations - Polyploidy
Gene Mutations

By the end of the lesson, the learner should be able to:
Describe structural chromosome changes. Explain polyploidy in plants. Understand chromosome number variations.

Exposition on chromosome number changes. Examples of polyploidy in agriculture using chalkboard. Discussion on plant breeding applications.

Textbook, chalkboard, chalk
Textbook, chalkboard, chalk, simple text examples

KLB Secondary Biology Form 4, Pages 35-36

GENETICS

Genetic Disorders - Albinism
Genetic Disorders - Sickle Cell Anaemia

By the end of the lesson, the learner should be able to:
Describe albinism inheritance. Explain enzyme deficiency in albinism. Calculate inheritance probabilities. Draw genetic crosses.

Case study of albinism using chalkboard diagrams. Genetic crosses for albinism inheritance. Discussion on carrier parents and affected children.

Textbook, chalkboard, chalk, exercise books
Textbook, chalkboard, chalk

KLB Secondary Biology Form 4, Pages 38-40

GENETICS

Environmental Effects on Gene Expression
Applications of Genetics

By the end of the lesson, the learner should be able to:
Explain gene-environment interactions. Describe phenotypic plasticity. Understand limitations of genetic determinism.

Discussion on environmental influences using local examples. Plant growth under different conditions. Twin studies and environmental factors.

Textbook, local plant examples, chalkboard
Textbook, local breeding examples, chalkboard

KLB Secondary Biology Form 4, Pages 42-43

EVOLUTION

Meaning of Evolution and Origin of Life Theories

By the end of the lesson, the learner should be able to:
Define evolution and organic evolution. Distinguish between special creation and chemical evolution theories. Explain the scientific approach to understanding life's origin.

Brainstorming on how life began. Discussion on religious vs scientific explanations. Exposition on chemical evolution theory. Comparison of different viewpoints.

Textbook, chalkboard, chalk

KLB Secondary Biology Form 4, Pages 53-55

EVOLUTION

Chemical Evolution and Miller's Experiment
Evidence for Evolution - Fossil Records

By the end of the lesson, the learner should be able to:
Describe Miller's spark discharge experiment. Explain formation of organic compounds from simple molecules. Understand primitive earth conditions.

Detailed exposition on Miller's experimental setup using chalkboard diagrams. Discussion on primitive atmosphere composition. Analysis of experimental results and significance.

Textbook, chalkboard, chalk, simple laboratory glassware for demonstration
Textbook, any available fossil specimens, pictures from textbook, chalkboard, chalk

KLB Secondary Biology Form 4, Pages 53-55

EVOLUTION

Geographical Distribution and Comparative Embryology
Comparative Anatomy - Homologous Structures

By the end of the lesson, the learner should be able to:
Explain biogeographical evidence for evolution. Describe continental drift effects on species distribution. Compare embryological development in vertebrates.

Discussion on animal and plant distribution patterns. Examination of world map showing species distribution. Drawing embryological stages on chalkboard. Comparison of vertebrate embryos.

Textbook, world map, chalkboard, chalk
Textbook, bone specimens (if available), pictures of animal limbs, chalkboard, chalk, exercise books

KLB Secondary Biology Form 4, Pages 60-63

EVOLUTION

Comparative Anatomy - Analogous and Vestigial Structures
Cell Biology and Comparative Serology Evidence

By the end of the lesson, the learner should be able to:
Define analogous and vestigial structures. Compare bird and insect wings. Give examples of vestigial organs. Explain convergent evolution.

Examination of bird and insect wing specimens. Drawing wing structures on chalkboard. Discussion on vestigial organs in humans and other animals. Examples of convergent evolution.

Textbook, wing specimens (bird feathers, insect specimens), chalkboard, chalk
Textbook, chalkboard, chalk, simple solutions for demonstration (if available)

KLB Secondary Biology Form 4, Pages 67-70

EVOLUTION

Lamarck's Theory vs Darwin's Theory

By the end of the lesson, the learner should be able to:
Explain Lamarck's theory of acquired characteristics. Describe Darwin's theory of natural selection. Compare and contrast both theories. Understand scientific acceptance criteria.

Exposition on Lamarck's giraffe example using chalkboard drawings. Detailed explanation of Darwin's natural selection theory. Comparison table construction. Discussion on scientific evidence.

Textbook, chalkboard, chalk

KLB Secondary Biology Form 4, Pages 71-73

EVOLUTION

Natural Selection in Action
Modern Examples of Evolution and Resistance

By the end of the lesson, the learner should be able to:
Explain struggle for existence and survival of the fittest. Describe peppered moth example. Model cryptic coloration effects. Understand environmental selection pressures.

Practical activity modeling cryptic coloration using paper cutouts. Discussion on peppered moth case study. Examples of predator-prey relationships. Analysis of selection pressures.

White and black paper, scissors, textbook, chalkboard
Textbook, local examples of pesticide resistance, chalkboard

KLB Secondary Biology Form 4, Pages 73-75

RECEPTION, RESPONSE AND CO-ORDINATION

Meaning of Stimulus, Response and Irritability; Types of Responses
Tropisms in Plants - Types and Survival Value

By the end of the lesson, the learner should be able to:
Define stimulus, response and irritability. Explain the need for sensitivity and response. Define taxis and different types of tactic responses. Explain survival value of responses.

Brainstorming on environmental changes. Discussion on stimulus-response concept using daily examples. Exposition on irritability and tactic responses. Practical observation of simple responses in termites/insects using local materials.

Textbook, chalkboard, chalk, bread crumbs, termites or other insects, dry sand
Textbook, chalkboard, chalk, seedlings, cardboard boxes for light experiments, local plant examples

KLB Secondary Biology Form 4, Pages 78-81

RECEPTION, RESPONSE AND CO-ORDINATION

Nastic Responses and Role of Auxins
Introduction to Nervous System and Neurone Structure

By the end of the lesson, the learner should be able to:
Define nastic responses. Describe types of nastic movements. Explain what auxins are and their functions. Describe how auxins control tropic responses.

Exposition on nastic responses using diagrams. Discussion on Mimosa pudica responses. Detailed exposition on auxin mechanism using chalkboard diagrams. Simple demonstrations of auxin effects on plant growth.

Textbook, chalkboard, chalk, Mimosa plant (if available), simple seedlings for auxin demonstration
Textbook, chalkboard, chalk, exercise books, pencils, rulers

KLB Secondary Biology Form 4, Pages 84-89

RECEPTION, RESPONSE AND CO-ORDINATION

Brain Structure and Functions

By the end of the lesson, the learner should be able to:
Describe structure of the human brain. Identify major parts: cerebrum, cerebellum, medulla oblongata. Explain functions of each brain part. Describe protective features.

Drawing brain structure on chalkboard. Exposition on brain anatomy and protection. Detailed discussion on brain part functions. Q&A on voluntary vs involuntary activities. Case studies of brain injuries.

Textbook, chalkboard, chalk, exercise books, colored chalk (if available)

KLB Secondary Biology Form 4, Pages 92-95

RECEPTION, RESPONSE AND CO-ORDINATION

Spinal Cord and Reflex Actions
Nerve Impulse Transmission and Synapses

By the end of the lesson, the learner should be able to:
Describe structure and functions of spinal cord. Define reflex action. Distinguish between simple and conditioned reflexes. Describe reflex arc components.

Drawing spinal cord cross-section on chalkboard. Exposition on spinal cord functions. Practical demonstration of knee-jerk reflex. Drawing reflex arc diagrams. Discussion on reflex vs voluntary actions.

Textbook, chalkboard, chalk, exercise books, simple tools for reflex testing
Textbook, chalkboard, chalk, exercise books, simple analogies using local examples

KLB Secondary Biology Form 4, Pages 95-98

RECEPTION, RESPONSE AND CO-ORDINATION

Endocrine System and Hormone Functions
Thyroxine and Adrenaline Functions

By the end of the lesson, the learner should be able to:
Define hormones and endocrine glands. Compare endocrine and nervous systems. Identify major endocrine glands. Explain negative feedback mechanism.

Exposition on endocrine system concept. Drawing endocrine gland locations on chalkboard. Detailed comparison between nervous and endocrine control. Discussion on hormone transport and target organs.

Textbook, chalkboard, chalk, exercise books
Textbook, chalkboard, chalk, local health examples

KLB Secondary Biology Form 4, Pages 100-101

RECEPTION, RESPONSE AND CO-ORDINATION

Drug Abuse Effects on Coordination
Structure of the Human Eye

By the end of the lesson, the learner should be able to:
Identify commonly abused drugs. Explain effects of drug abuse on nervous system. Describe health consequences of drug abuse. Understand prevention strategies.

Discussion on local drug abuse problems. Exposition on drug effects on coordination and health. Health education on drug abuse prevention. Case studies from local community. Group discussions on prevention strategies.

Textbook, chalkboard, chalk, local health examples, community case studies
Textbook, chalkboard, chalk, exercise books, rulers

KLB Secondary Biology Form 4, Pages 103-104

RECEPTION, RESPONSE AND CO-ORDINATION

Vision, Rods, Cones and Image Formation

By the end of the lesson, the learner should be able to:
Explain functions of rods and cones. Describe image formation in the eye. Understand color vision and visual acuity. Explain binocular and stereoscopic vision.

Exposition on photoreceptor functions and differences. Discussion on color vision mechanism. Explanation of image formation process. Practical activities on visual perception and blind spot demonstration.

Textbook, chalkboard, chalk, white paper, pencils for blind spot experiment

KLB Secondary Biology Form 4, Pages 105-109

RECEPTION, RESPONSE AND CO-ORDINATION

Accommodation and Pupil Control
Eye Defects and Their Correction

By the end of the lesson, the learner should be able to:
Explain accommodation mechanism for near and distant objects. Describe pupil size control. Understand role of ciliary muscles and iris.

Detailed exposition on accommodation using diagrams. Discussion on lens shape changes and muscle action. Explanation of pupil control in different light conditions. Practical observations of pupil responses.

Textbook, chalkboard, chalk, simple lenses (if available), torch or bright light
Textbook, chalkboard, chalk, examples of different spectacles, exercise books

KLB Secondary Biology Form 4, Pages 109-110

RECEPTION, RESPONSE AND CO-ORDINATION

Structure of the Human Ear
Hearing Mechanism

By the end of the lesson, the learner should be able to:
Describe structure of outer, middle, and inner ear. Identify major parts and their functions. Explain ear protection mechanisms.

Drawing detailed ear structure on chalkboard. Exposition on ear anatomy of all three parts. Discussion on ear part functions. Explanation of ear protection and wax function. Student labeling exercises.

Textbook, chalkboard, chalk, exercise books, rulers
Textbook, chalkboard, chalk, simple sound sources for demonstration

KLB Secondary Biology Form 4, Pages 112-113

RECEPTION, RESPONSE AND CO-ORDINATION

Balance and Posture Control
Ear Defects and Hearing Problems

By the end of the lesson, the learner should be able to:
Explain how ear maintains balance and posture. Describe role of semicircular canals and vestibule. Understand body balance mechanisms.

Exposition on balance control mechanisms using diagrams. Discussion on semicircular canals and their orientation. Explanation of otoliths and gravity detection. Simple balance experiments and demonstrations.

Textbook, chalkboard, chalk, simple materials for balance demonstration
Textbook, chalkboard, chalk, local examples of hearing problems

KLB Secondary Biology Form 4, Pages 114-115

RECEPTION, RESPONSE AND CO-ORDINATION

Integration and Coordination Systems Review
Practical Applications and Assessment

By the end of the lesson, the learner should be able to:
Compare plant and animal coordination systems. Integrate nervous, endocrine, and sensory systems. Apply knowledge to solve coordination problems.

Comprehensive review of all coordination systems. Comparison charts of different response types. Problem-solving exercises on coordination scenarios. Q&A sessions covering all topics. Preparation for assessments.

Textbook, chalkboard, chalk, exercise books, review materials
Textbook, assessment materials, local case studies, exercise books

KLB Secondary Biology Form 4, Pages 78-116

SUPPORT AND MOVEMENT

Importance of Support and Movement; Plant Support Strategies

By the end of the lesson, the learner should be able to:
Explain the necessity for support in plants and animals. Describe importance of movement in organisms. Identify different support mechanisms in plants. Explain role of turgor pressure and alternative support methods.

Brainstorming on why organisms need support. Discussion on consequences of lack of support. Observation of local plants showing different support strategies. Practical experiment on wilting in herbaceous vs woody plants. Analysis of climbing plants and their support adaptations.

Textbook, chalkboard, chalk, local plant specimens, herbaceous and woody plants for wilting experiment

KLB Secondary Biology Form 4, Pages 120-121, 125-126

SUPPORT AND MOVEMENT

Tissue Arrangement in Monocot and Dicot Stems
Supporting Tissues in Plants and Their Functions

By the end of the lesson, the learner should be able to:
Describe arrangement of tissues in monocotyledonous and dicotyledonous stems. Compare tissue arrangements between monocots and dicots. Identify supporting tissues and their distribution.

Examination of fresh monocot and dicot stem cross-sections. Drawing and labeling tissue arrangements on chalkboard. Practical observation of vascular bundle patterns. Comparison of scattered vs ring arrangements. Discussion on supporting tissue distribution.

Textbook, chalkboard, chalk, fresh monocot stems (maize, sugarcane), fresh dicot stems (bean plants), razor blades, hand lenses
Textbook, chalkboard, chalk, microscope slides (if available), fresh stem sections, exercise books

KLB Secondary Biology Form 4, Pages 121-125

SUPPORT AND MOVEMENT

Types of Animal Skeletons
Fish Locomotion - Structure and Mechanism

By the end of the lesson, the learner should be able to:
Identify three types of animal skeletons: hydrostatic, exoskeleton, endoskeleton. Compare structure, composition, and functions of each skeleton type. Explain advantages and disadvantages of different skeleton types.

Exposition on skeleton types using examples. Examination of arthropod specimens showing exoskeleton. Discussion on bone and cartilage as endoskeleton materials. Comparison table of skeleton characteristics. Analysis of evolutionary adaptations and growth limitations.

Textbook, chalkboard, chalk, arthropod specimens (grasshoppers, crabs), bone specimens, comparison charts
Textbook, fresh fish specimen, chalkboard, chalk, forceps, measuring tools, calculator, exercise books

KLB Secondary Biology Form 4, Pages 126-127

SUPPORT AND MOVEMENT

Human Axial Skeleton - Skull and Rib Cage
Vertebral Column - Cervical and Thoracic Vertebrae

By the end of the lesson, the learner should be able to:
Describe structure and functions of human skull. Explain structure and function of rib cage. Understand protection and support roles. Identify bone features and adaptations.

Examination of skull and rib cage specimens or models. Drawing skull and rib cage structures. Discussion on brain and organ protection. Analysis of breathing movements and rib articulation. Identification of skull sutures and rib cage components.

Textbook, chalkboard, chalk, skull and rib cage specimens, exercise books
Textbook, chalkboard, chalk, cervical and thoracic vertebrae specimens, exercise books

KLB Secondary Biology Form 4, Pages 130-131

SUPPORT AND MOVEMENT

Vertebral Column - Lumbar, Sacral and Caudal Vertebrae

By the end of the lesson, the learner should be able to:
Identify features of lumbar vertebrae and their weight-bearing adaptations. Describe structure of sacral vertebrae and sacrum formation. Explain structure of caudal vertebrae. Compare all vertebrae types.

Examination of lumbar, sacral, and caudal vertebrae specimens. Drawing large centrum and processes of lumbar vertebrae. Study of sacrum formation and fusion. Discussion on weight support and regional specializations. Complete vertebral column analysis.

Textbook, chalkboard, chalk, lumbar, sacral, and caudal vertebrae specimens, complete vertebral column

KLB Secondary Biology Form 4, Pages 134-136

SUPPORT AND MOVEMENT

Pectoral Girdle and Forelimb Bones
Pelvic Girdle and Hindlimb Bones

By the end of the lesson, the learner should be able to:
Describe structure of pectoral girdle components: scapula and clavicle. Identify forelimb bones: humerus, radius, ulna, carpals, metacarpals, phalanges. Explain joint formations and articulations.

Examination of pectoral girdle and forelimb bones. Drawing and labeling complete forelimb structure. Discussion on shoulder and elbow joint formation. Analysis of bone features and muscle attachment points. Study of pentadactyl limb pattern.

Textbook, chalkboard, chalk, pectoral girdle and forelimb bone specimens, exercise books
Textbook, chalkboard, chalk, pelvic girdle and hindlimb bone specimens, exercise books

KLB Secondary Biology Form 4, Pages 136-138

SUPPORT AND MOVEMENT

Types of Joints and Their Structure
Ball and Socket vs Hinge Joints; Movement Mechanisms

By the end of the lesson, the learner should be able to:
Identify types of joints: immovable, gliding, and movable (synovial). Describe structure of synovial joints including cartilage, synovial fluid, and ligaments. Explain joint components and their functions.

Examination of different joint types and synovial joint structure. Drawing synovial joint components. Discussion on cartilage function and synovial fluid properties. Analysis of joint mobility and stability. Practical observation of joint movements.

Textbook, chalkboard, chalk, joint specimens or models, exercise books
Textbook, chalkboard, chalk, joint specimens, practical movement demonstrations, exercise books

KLB Secondary Biology Form 4, Pages 140-141

SUPPORT AND MOVEMENT

Types of Muscle Tissue and Their Functions
Skeletal Muscle Structure and Contraction Mechanism
Smooth and Cardiac Muscle Specializations

By the end of the lesson, the learner should be able to:
Identify three types of muscle tissue: skeletal (striated), smooth (visceral), and cardiac. Compare structure and functions of each muscle type. Explain voluntary vs involuntary muscle control. Describe muscle fiber characteristics.

Drawing structures of different muscle types on chalkboard. Detailed comparison of muscle fiber characteristics. Discussion on muscle control mechanisms and locations. Analysis of muscle contraction properties and endurance. Examples of each muscle type in body systems.

Textbook, chalkboard, chalk, exercise books, muscle tissue comparison charts
Textbook, chalkboard, chalk, exercise books, detailed muscle structure diagrams
Textbook, chalkboard, chalk, exercise books, comprehensive muscle comparison tables

KLB Secondary Biology Form 4, Pages 142-144