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| WK | LSN | TOPIC | SUB-TOPIC | OBJECTIVES | T/L ACTIVITIES | T/L AIDS | REFERENCE | REMARKS |
|---|---|---|---|---|---|---|---|---|
| 1 |
Reporting to school |
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| 1 | 4 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Sexual Reproduction in Plants - Flower Structure
|
By the end of the
lesson, the learner
should be able to:
To draw and label a flower. To identify parts of a flower. To explain flower terminologies. To count sepals, petals, stamens and carpels. |
Practical work: Examining bean flowers, morning glory, and hibiscus. Dissection of flowers to identify parts. Counting floral parts and recording. Drawing longitudinal section of flower. Discussion: Functions of flower parts.
|
Bean flowers, Morning glory, Hibiscus, Hand lens, Scalpels, Drawing materials
|
Certificate Biology Form 3, Pages 115-117
|
|
| 1 | 5 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Pollination - Insect Pollinated Flowers
|
By the end of the
lesson, the learner
should be able to:
To define pollination. To identify agents of pollination. To describe structure of insect-pollinated flowers. To examine insect-pollinated flowers. |
Q/A: Definition and agents of pollination. Practical examination: Structure of insect-pollinated flowers. Identification of adaptive features. Comparison with wind-pollinated flowers. Discussion: Importance of bright colors and nectar.
|
Insect-pollinated flowers, Hand lens, Measuring rulers, Drawing materials
|
Certificate Biology Form 3, Pages 120-121
|
|
| 2 | 1-2 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Wind-Pollinated Flowers and Adaptations
Self-Pollination Prevention and Fertilisation Seed and Fruit Development |
By the end of the
lesson, the learner
should be able to:
To describe structure of wind-pollinated flowers. To identify adaptive features of wind-pollinated flowers. To compare insect and wind pollination. To discuss mechanisms preventing self-pollination. To describe fertilisation process in flowering plants. To explain double fertilisation. |
Practical examination: Structure of grass flowers, maize tassels. Identification of glumes, spikes, spikelets. Tabulate differences between insect and wind-pollinated flowers. Discussion: Adaptive features for wind pollination.
Discussion: Methods preventing self-pollination. Teacher exposition: Process of fertilisation. Drawing diagrams showing fertilisation stages. Q/A: Significance of double fertilisation. Discussion: Formation of zygote and endosperm. |
Wind-pollinated flowers (grass, maize), Hand lens, Charts, Drawing materials
Charts showing fertilisation, Drawing materials, Textbook Variety of fruits, Petri dishes, Scalpels, Drawing materials, Charts |
Certificate Biology Form 3, Pages 120-121
Certificate Biology Form 3, Pages 121-123 |
|
| 2 | 3 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Placentation and Internal Fruit Structure
|
By the end of the
lesson, the learner
should be able to:
To define placentation. To identify types of placentation. To label internal structure of fruits. To examine ovaries of various fruits. |
Teacher exposition: Types of placentation. Practical examination: Ovaries of beans, sunflower, pawpaw, orange. Drawing diagrams showing placentation types. Vertical sections of fruits showing internal structure.
|
Fruits (beans, sunflower, pawpaw, orange), Scalpels, Drawing materials
|
Certificate Biology Form 3, Pages 124-130
|
|
| 2 | 4 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Fruit and Seed Dispersal
|
By the end of the
lesson, the learner
should be able to:
To explain adaptive features of fruits and seeds. To identify agents of dispersal. To classify fruits and seeds by dispersal method. |
Practical examination: Various fruits and seeds. Grouping according to dispersal methods. Discussion: Adaptive features for wind, water, animal dispersal. Demonstration of seed dispersal mechanisms. Recording observations of external features.
|
Variety of fruits and seeds, Hand lens, Drawing materials, Collection containers
|
Certificate Biology Form 3, Pages 130-131
|
|
| 2 | 5 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Review and Assessment
Introduction and Fertilisation Types |
By the end of the
lesson, the learner
should be able to:
To consolidate understanding of reproduction in plants. To apply knowledge in problem-solving. To prepare for examinations. |
Comprehensive review: Q/A session on all topics covered. Problem-solving exercises on reproduction processes. Drawing practice: Flower parts, fertilisation, fruit types. Written assessment covering unit objectives. Discussion of difficult concepts.
|
Past examination papers, Drawing materials, Assessment sheets, Charts for reference
Charts showing reproduction types and fertilisation, Textbook, Wall charts |
Certificate Biology Form 3, Pages 113-143
|
|
| 3 | 1-2 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Reproduction in Amphibia and Mammalian Characteristics
Female Reproductive System Structure Stages of Reproduction and Oogenesis Menstrual Cycle - Follicle Development and Ovulation Hormonal Control and Menstrual Phases |
By the end of the
lesson, the learner
should be able to:
To describe reproduction in frogs and toads. To explain seasonal breeding and egg protection. To state characteristics of mammalian reproduction. To define viviparous, placental mammals and mammary glands. To list the stages of reproduction in mammals. To describe oogenesis from fetal development to puberty. To explain primordial follicle formation. To relate oogenesis to reproductive maturity. |
Examination of frog egg masses and jelly coating functions. Discussion: Seasonal breeding patterns and tadpole development. Teacher exposition: Mammalian reproduction characteristics. Q/A: Viviparous vs oviparous reproduction and mammary gland functions.
Teacher exposition: Four main reproductive stages overview. Detailed discussion: Oogenesis process from fetal development. Q/A: Primordial follicle formation and puberty changes. Drawing diagrams showing follicle development stages. |
Frog eggs specimens, Charts showing amphibian and mammalian reproduction, Hand lens
Charts of female reproductive system, Drawing materials, Models if available, Textbook Flow charts, Oogenesis diagrams, Drawing materials, Textbook Menstrual cycle charts, Drawing materials, Textbook Hormone level graphs, Menstrual cycle phase charts, Textbook |
Certificate Biology Form 3, Pages 148-149
Certificate Biology Form 3, Pages 151-152 |
|
| 3 | 3 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Ovum Structure and Fertilisation Process
Early Development and Twins Formation |
By the end of the
lesson, the learner
should be able to:
To draw and label structure of human ovum. To describe sperm movement in female tract. To explain acrosome function during fertilisation. To outline zygote formation and nuclear fusion. |
Drawing and labeling: Mature human ovum structure. Discussion: Sperm journey from vagina to oviduct. Teacher exposition: Acrosome enzymes and zona pellucida penetration. Q/A: Nuclear fusion, chromosome combination and zygote formation.
|
Ovum structure charts, Fertilisation diagrams, Drawing materials, Textbook
Developmental stages charts, Twin formation diagrams, Drawing materials, Textbook |
Certificate Biology Form 3, Pages 155-157
|
|
| 3 | 4 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Implantation and Pregnancy Indicators
Gestation and Embryonic Membranes |
By the end of the
lesson, the learner
should be able to:
To define implantation and describe the process. To explain chorionic villi formation and anchoring. To identify early signs of pregnancy. To explain HCG hormone function and detection. |
Detailed discussion: Implantation timing and chorionic villi development. Teacher exposition: Blastocyst embedding in endometrium. Discussion: Early pregnancy symptoms and HCG hormone. Q/A: Laboratory confirmation methods and pregnancy tests.
|
Implantation charts, Pregnancy test demonstration materials, Textbook
Gestation charts, Fetal development models, Drawing materials, Textbook |
Certificate Biology Form 3, Pages 158-159
|
|
| 3 | 5 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Placenta Structure and Functions
|
By the end of the
lesson, the learner
should be able to:
To describe placenta structure and formation. To explain maternal and fetal blood separation. To identify nutrient transfer and gas exchange functions. To discuss placental barrier limitations. |
Detailed discussion: Placenta as temporary organ with dual tissue origin. Teacher exposition: Blood vessel arrangement and separation mechanisms. Discussion: Nutrient, oxygen transfer and harmful substance passage. Q/A: Placental protection and its limitations.
|
Placenta structure diagrams, Function charts, Drawing materials, Textbook
|
Certificate Biology Form 3, Pages 161-163
|
|
| 4 | 1-2 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Pregnancy Hormones and Parturition
Male Reproductive System Structure and Functions |
By the end of the
lesson, the learner
should be able to:
To identify hormones during pregnancy. To explain HCG, progesterone and oestrogen roles. To describe hormonal changes triggering birth. To explain the parturition process. To draw and label male reproductive system. To identify testes, epididymis, vas deferens and accessory glands. To describe functions of each component. To explain scrotum function and temperature regulation. |
Discussion: Hormone secretion patterns during pregnancy. Teacher exposition: HCG, progesterone, oestrogen functions and interactions. Detailed explanation: Hormonal triggers for birth and oxytocin role. Q/A: Uterine contractions, cervix dilation and delivery stages.
Drawing and labeling: Complete male reproductive system. Teacher demonstration using charts and models. Discussion: Functions of testes, epididymis, vas deferens, accessory glands. Q/A: Scrotum location and temperature regulation for sperm production. |
Pregnancy hormone charts, Birth process diagrams, Hormone level graphs, Textbook
Male reproductive system charts, Drawing materials, Models if available, Textbook |
Certificate Biology Form 3, Pages 163-165
Certificate Biology Form 3, Pages 164-166 |
|
| 4 | 3 |
REPRODUCTION IN PLANTS AND ANIMALS
|
Sperm Structure and Male Hormones
|
By the end of the
lesson, the learner
should be able to:
To draw and label spermatozoon structure. To explain head, middle piece and tail functions. To describe testosterone and FSH roles. To identify secondary sexual characteristics. |
Drawing and labeling: Detailed sperm structure showing all components. Discussion: Sperm adaptations for fertilization and motility. Teacher exposition: Hormone control of sperm production and male development. Q/A: Testosterone effects and secondary sexual characteristics.
|
Sperm structure diagrams, Male hormone charts, Drawing materials, Textbook
|
Certificate Biology Form 3, Pages 166-167
|
|
| 4 | 4 |
REPRODUCTION IN PLANTS AND ANIMALS
|
HIV/AIDS - Causes and Transmission
|
By the end of the
lesson, the learner
should be able to:
To describe HIV virus and immune system effects. To explain AIDS development and symptoms. To identify HIV transmission modes. To discuss high-risk behaviors. |
Detailed discussion: HIV virus structure and immune system destruction. Teacher exposition: AIDS development and opportunistic diseases. Discussion: Transmission modes - sexual, blood, mother-to-child. Q/A: High-risk behaviors and transmission prevention.
|
AIDS awareness charts, HIV transmission diagrams, Educational materials, Textbook
|
Certificate Biology Form 3, Pages 167-170
|
|
| 4 | 5 |
REPRODUCTION IN PLANTS AND ANIMALS
|
AIDS Symptoms and Prevention
Bacterial STIs - Gonorrhea and Syphilis |
By the end of the
lesson, the learner
should be able to:
To identify early and late AIDS symptoms. To describe opportunistic diseases. To explain AIDS prevention methods. To discuss social responsibility and behavior change. |
Discussion: Early AIDS symptoms and progression to full syndrome. Teacher exposition: Opportunistic diseases and their effects. Detailed explanation: Prevention strategies and behavior modification. Group discussion: Social responsibility and community health.
|
AIDS symptom charts, Prevention posters, Case study materials, Textbook
STI information charts, Bacterial infection diagrams, Textbook |
Certificate Biology Form 3, Pages 170-171
|
|
| 5 | 1-2 |
REPRODUCTION IN PLANTS AND ANIMALS
GROWTH AND DEVELOPMENT |
Viral STIs and Other Infections
Introduction and Definitions Measurement of Growth Patterns and Rate of Growth |
By the end of the
lesson, the learner
should be able to:
To describe genital herpes causes and symptoms. To explain hepatitis B transmission and effects. To identify trichomoniasis and other STIs. To emphasize prevention strategies for all STIs. To distinguish between growth and development. To define growth as permanent increase in size and weight. To explain development as structural changes and differentiation. To relate growth to cell division and tissue formation. |
Discussion: Viral STIs and their incurable nature. Teacher exposition: Herpes simplex virus effects and dormancy. Q/A: Hepatitis B liver effects and vaccination. Discussion: Comprehensive STI prevention and faithful relationships.
Q/A: Review reproduction concepts. Discussion: Definition of growth vs development. Teacher exposition: Cell division, differentiation and tissue formation. Q/A: Examples of growth and development in organisms. Discussion: Growth as characteristic of living organisms. |
Viral STI charts, Prevention strategy posters, Textbook
Charts showing growth and development, Textbook, Wall charts Measuring instruments, Scales, Rulers, Calculators, Sample plants Growth curve charts, Graph paper, Calculators, Sample data sets |
Certificate Biology Form 3, Page 172
Certificate Biology Form 3, Pages 178-179 |
|
| 5 | 3 |
GROWTH AND DEVELOPMENT
|
Factors Controlling Plant Growth
Stages of Growth and Life Cycle |
By the end of the
lesson, the learner
should be able to:
To identify external factors affecting plant growth. To explain how oxygen, temperature, water, light and space influence growth. To describe internal factors including hormones. To relate factors to plant survival and adaptation. |
Detailed discussion: External factors - oxygen, temperature, water, light, space. Teacher exposition: How each factor affects biochemical processes. Q/A: Competition effects and resource limitation. Introduction to internal factors and plant hormones.
|
Environmental factor charts, Temperature scales, Light meters if available, Textbook
Plant life cycle charts, Examples of annual and perennial plants, Textbook |
Certificate Biology Form 3, Pages 180-181
|
|
| 5 | 4 |
GROWTH AND DEVELOPMENT
|
Seed Structure - Monocots and Dicots
Conditions for Germination |
By the end of the
lesson, the learner
should be able to:
To examine and draw structure of monocot and dicot seeds. To identify parts of bean and maize seeds. To compare structural differences between seed types. To explain functions of seed parts. |
Practical examination: Soaked bean and maize seeds. Dissection and identification of seed parts. Drawing and labeling: Bean seed cotyledons, embryo, testa. Drawing maize grain: endosperm, scutellum, plumule, radicle. Comparison table of monocot vs dicot seeds.
|
Soaked bean and maize seeds, Hand lens, Scalpels, Drawing materials, Iodine solution
Germination apparatus, Seeds at different stages, Temperature monitoring equipment, Textbook |
Certificate Biology Form 3, Pages 182-183
|
|
| 5 | 5 |
GROWTH AND DEVELOPMENT
|
Types of Germination
Germination Practical Investigation |
By the end of the
lesson, the learner
should be able to:
To distinguish between epigeal and hypogeal germination. To describe hypocotyl and epicotyl elongation. To explain cotyledon behavior in each type. To give examples of plants showing each germination type. |
Practical observation: Germinating bean and maize seeds at different stages. Teacher exposition: Epigeal germination - hypocotyl elongation, cotyledon emergence. Discussion: Hypogeal germination - epicotyl elongation, cotyledons remain underground. Drawing comparative diagrams of both types.
|
Germinating seeds at various stages, Drawing materials, Observation trays, Hand lens
Seeds, Petri dishes, Cotton wool, Measuring rulers, Data recording sheets, Clay pots |
Certificate Biology Form 3, Pages 184-186
|
|
| 6 | 1-2 |
GROWTH AND DEVELOPMENT
|
Primary Growth and Meristems
Secondary Growth and Cambium Activity Annual Rings and Plant Dormancy |
By the end of the
lesson, the learner
should be able to:
To describe primary growth in plants. To identify apical meristems and their functions. To explain tissue development from meristems. To relate meristem activity to plant growth. To describe secondary growth in dicots. To explain vascular cambium and cork cambium functions. To identify secondary xylem and phloem formation. To relate secondary growth to plant strength and support. |
Discussion: Primary growth in seedlings and herbaceous plants. Teacher exposition: Apical meristem structure and cell characteristics. Q/A: Meristem cell division and differentiation processes. Drawing diagrams showing meristem distribution in plants.
Detailed discussion: Secondary thickening in woody plants. Teacher exposition: Vascular cambium tangential divisions. Q/A: Secondary xylem and phloem development. Discussion: Cork cambium, lenticels and bark formation. Drawing cross-sections showing secondary tissues. |
Meristem distribution charts, Drawing materials, Microscope slides of meristems, Textbook
Secondary growth diagrams, Tree trunk sections, Drawing materials, Hand lens Tree trunk cross-sections, Dormant plant organs, Charts, Textbook |
Certificate Biology Form 3, Pages 186-187
Certificate Biology Form 3, Pages 186-188 |
|
| 6 | 3 |
GROWTH AND DEVELOPMENT
|
Seed Dormancy and Breaking Mechanisms
|
By the end of the
lesson, the learner
should be able to:
To describe seed dormancy characteristics. To explain factors that break seed dormancy. To identify vernalization, moisture, light and chemical effects. To discuss advantages of seed dormancy. |
Detailed discussion: Dormant seed characteristics and low metabolic activity. Teacher exposition: Vernalization, moisture, light requirements. Q/A: Chemical inhibitors and gibberellic acid effects. Discussion: Dormancy advantages - dispersal time, favorable conditions.
|
Dormant seeds, Germination comparison setups, Chemical solutions, Textbook
|
Certificate Biology Form 3, Pages 188-189
|
|
| 6 | 4 |
GROWTH AND DEVELOPMENT
|
Plant Growth Substances - Auxins
|
By the end of the
lesson, the learner
should be able to:
To describe discovery of plant hormones by Fritz Went. To explain auxin functions in stems, leaves, roots and fruits. To identify IAA structure and translocation. To discuss practical applications of auxins. |
Teacher exposition: Went's experiments with oat coleoptiles and auxin discovery. Discussion: Auxin effects in different plant organs. Q/A: Apical dominance and parthenocarpy. Practical applications: rooting powders, herbicides, fruit development.
|
Auxin experiment diagrams, Plant cuttings, Rooting powder demonstration, Textbook
|
Certificate Biology Form 3, Pages 189-192
|
|
| 6 | 5 |
GROWTH AND DEVELOPMENT
|
Gibberellins, Cytokinins and Other Hormones
|
By the end of the
lesson, the learner
should be able to:
To describe gibberellin functions and effects. To explain cytokinin roles in cell division and growth. To identify abscissic acid as growth inhibitor. To describe ethene and florigen effects. |
Discussion: Gibberellin effects on stem elongation and seed germination. Teacher exposition: Cytokinin functions in meristematic tissues. Q/A: Abscissic acid antagonistic effects. Discussion: Ethene in fruit ripening and florigen in flowering.
|
Plant hormone effect charts, Ripening fruits, Textbook
|
Certificate Biology Form 3, Pages 192-194
|
|
| 7 | 1-2 |
GROWTH AND DEVELOPMENT
|
Practical Applications of Plant Hormones
Animal Growth Patterns and Life Cycles Complete Metamorphosis |
By the end of the
lesson, the learner
should be able to:
To explain commercial uses of plant hormones. To describe hormone applications in agriculture and horticulture. To identify hormone uses in crop production. To discuss economic benefits of hormone applications. To distinguish continuous from discontinuous growth in animals. To describe sigmoid growth curve phases. To explain lag, exponential, decelerating and plateau phases. To compare growth patterns in different animal groups. |
Discussion: Commercial applications of auxins in propagation. Teacher exposition: Gibberellins in brewing and dwarf plant treatment. Q/A: Hormone use in fruit production and weed control. Case studies: Economic benefits in agriculture and horticulture.
Analysis of sigmoid growth curves showing four phases. Teacher exposition: Continuous growth in mammals, birds, fish. Discussion: Discontinuous growth in insects and amphibians. Q/A: Factors affecting each growth phase. |
Hormone application examples, Agricultural product samples, Case study materials
Growth curve charts, Animal development examples, Graph paper, Textbook Insect life cycle charts, Preserved specimens if available, Drawings, Textbook |
Certificate Biology Form 3, Pages 191-194
Certificate Biology Form 3, Pages 193-194 |
|
| 7 | 3 |
GROWTH AND DEVELOPMENT
|
Incomplete Metamorphosis
|
By the end of the
lesson, the learner
should be able to:
To describe incomplete metamorphosis characteristics. To explain life cycles of cockroach and locust. To identify nymphal stages and molting process. To compare complete and incomplete metamorphosis. |
Discussion: Egg to adult development through nymphal stages. Teacher exposition: Cockroach and locust life cycles. Q/A: Molting/ecdysis process and wing development. Comparison table: Complete vs incomplete metamorphosis.
|
Incomplete metamorphosis charts, Grasshopper specimens, Comparison tables, Textbook
|
Certificate Biology Form 3, Pages 198-199
|
|
| 7 | 4 |
GROWTH AND DEVELOPMENT
|
Hormonal Control of Growth in Animals
|
By the end of the
lesson, the learner
should be able to:
To identify growth hormones in different animals. To explain human growth hormone from pituitary gland. To describe insect molting hormones - ecdysone and juvenile hormone. To explain thyroxine role in frog metamorphosis. |
Discussion: Growth hormone control in mammals. Teacher exposition: Pituitary gland and human growth regulation. Q/A: Insect hormone balance - ecdysone and neotonin effects. Discussion: Thyroxine control of amphibian metamorphosis.
|
Hormone control charts, Animal development diagrams, Textbook
|
Certificate Biology Form 3, Page 199
|
|
| 7 | 5 |
GROWTH AND DEVELOPMENT
|
Growth Measurement Practical
|
By the end of the
lesson, the learner
should be able to:
To measure plant growth over time. To record linear measurements and calculate growth rates. To plot growth curves from collected data. To analyze factors affecting growth differences. |
Practical work: Long-term measurement of plant growth (height, leaf length). Data recording: Daily/weekly measurements over extended period. Mathematical analysis: Growth rate calculations. Graph plotting: Growth curves and growth rate curves.
|
Growing plants, Measuring rulers, Data recording sheets, Graph paper, Calculators
|
Certificate Biology Form 3, Pages 201-202
|
|
| 8 |
End year exam |
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| 9 |
Closing of school |
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