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| WK | LSN | TOPIC | SUB-TOPIC | OBJECTIVES | T/L ACTIVITIES | T/L AIDS | REFERENCE | REMARKS |
|---|---|---|---|---|---|---|---|---|
| 2 | 1-2 |
GENETICS
|
The concept of variation.
Discontinuous variation. |
By the end of the
lesson, the learner
should be able to:
Define Genetics. Define variation. Define discontinuous variation. |
Exposition of new concepts.
Probing questions on some variations in human beings. Observe some variations in human beings such as tongue rolling, finger prints, students? heights, etc. Discussion on the concept of variation. Observe some discontinuous variations in human beings such as tongue rolling, sex, blood groups, etc. Discussion on the concept of discontinuous variation. |
Ink pad, hand lenses, white paper. text book |
KLB BK IV. PP 1-2. KLB BK IV. P 3. |
|
| 2 | 3 |
GENETICS
|
Continuous variation.
|
By the end of the
lesson, the learner
should be able to:
Define continuous variation. Give examples of characteristics that show continuous variation. |
Class activity ; students measure and record their heights;
Plotting of frequency-height graph; Analyzing the graph; Discussion with probing questions. |
Metre rules/ tape measure,
Graph papers |
KLB BK IV. PP 3-4 |
|
| 2 | 4 |
GENETICS
|
Causes of variation.
|
By the end of the
lesson, the learner
should be able to:
Discuss causes of variation. |
Exposition of new concepts.
Discussion with probing questions. |
text book
|
KLB BK IV.
P 4 |
|
| 2 | 5 |
GENETICS
|
The chromosome.
|
By the end of the
lesson, the learner
should be able to:
Describe the structure of chromosomes. |
Exposition of new concepts.
Probing questions. Discussion. |
text book
|
KLB BK IV. PP 4-5.
|
|
| 3 | 1-2 |
GENETICS
|
Chromosomal behaviour during mitosis.
Chromosomal behaviour during meiosis. |
By the end of the
lesson, the learner
should be able to:
Describe chromosomal behaviour during mitosis. Describe chromosomal behaviour during meiosis. |
Exposition;
Teacher demonstrations; Drawing diagrams; Detailed discussion. |
Scissors,
Manilla papers, thread, cellotape. Scissors, Manilla papers, threads, cellotape. |
KLB BK IV. PP 5-6
KLB BK IV. PP 6-7 |
|
| 3 | 3 |
GENETICS
|
Genes and DNA.
DNA replication. |
By the end of the
lesson, the learner
should be able to:
Describe the structure of genes and DNA. Identify the role of DNA. Describe DNA replication. Explain the role of DNA in protein synthesis. |
Expository approach.
Exposition; Drawing mRNA strands. |
Chart- the double helix DNA.
text book |
KLB BK IV. PP 7-8
|
|
| 3 | 4 |
GENETICS
|
First law of heredity.
|
By the end of the
lesson, the learner
should be able to:
Describe Mendel?s experiments. State Mendel?s first law. |
Exposition with explanations.
|
|
KLB BK IV. PP 11-12
|
|
| 3 | 5 |
GENETICS
|
Monohybrid inheritance.
|
By the end of the
lesson, the learner
should be able to:
Define monohybrid inheritance. Differentiate between genotype and phenotype. Draw diagrams to show genetic crosses. |
Q/A to review Mendel?s first law.
Drawing diagrams to show genetic crosses. Discussion with probing questions. |
text book
|
KLB BK IV. PP 12-14
|
|
| 4 | 1-2 |
GENETICS
|
Genetic crosses using a punnet square.
Ratios of phenotypes and genotypes. |
By the end of the
lesson, the learner
should be able to:
Show fusion of gametes using a punnet square. Explain the concept of probability in inheritance of characteristics. |
Completing a punnet square;
Brief discussion. Q/A to review phenotypes and genotypes. Simple experiments on probability. Discussion. |
text book
Beans of two different colours, beakers. |
KLB BK IV. PP 14-15
KLB BK IV. PP 15-17 |
|
| 4 | 3 |
GENETICS
|
Incomplete dominance.
Inheritance of ABO blood groups. |
By the end of the
lesson, the learner
should be able to:
Cite examples of incomplete dominance. Illustrate incomplete dominance with diagrams. Illustrate inheritance of blood groups with diagrams. |
Exposition;
Discussion; Drawing diagrams. Drawing diagrams; Supervised practice on inheritance of blood groups. |
chart
|
KLB BK IV. PP 19-20.
|
|
| 4 | 4 |
GENETICS
|
Inheritance of Rhesus factor.
|
By the end of the
lesson, the learner
should be able to:
Describe inheritance of Rhesus factor. |
Exposition;
Discussion. |
chart
|
KLB BK IV. PP 21-22
|
|
| 4 | 5 |
GENETICS
|
Determining unknown genotypes.
Sex determination in man. |
By the end of the
lesson, the learner
should be able to:
Determine unknown genotypes using test crosses and selfing crosses. Describe sex determination in man. |
Exposition;
Probing questions; Drawing illustrative diagrams; Discussion. |
text book
|
KLB BK IV. PP 22-23
|
|
| 5 | 1-2 |
GENETICS
|
Sex-linked genes and traits.
Non-disjunction. |
By the end of the
lesson, the learner
should be able to:
Identify sex-linked traits in man. Illustrate inheritance of sex-linked traits with diagrams. Explain effects of non-disjunction as a chromosomal abnormality. |
Probing questions;
Drawing illustrative diagrams; Discussion. Exposition of new concepts; Discussion. |
text book
|
KLB BK IV. PP 24-27
KLB BK IV. PP 30-33 |
|
| 5 | 3 |
GENETICS
|
Gene mutation.
|
By the end of the
lesson, the learner
should be able to:
Differentiate between chromosomal and gene mutation. Identify types of gene mutation. |
Q/A to review types of chromosomal mutation;
Using sequence models to show chromosomal mutations. Discussion. |
Models to show Chromosomal mutations.
|
KLB BK IV. PP 33-35
|
|
| 5 | 4 |
GENETICS
|
Disorders due to gene mutations.
|
By the end of the
lesson, the learner
should be able to:
Illustrate genetic disorders with diagrams. |
Discussion on albinism, sickle-cell anaemia, haemophilia, colour blindness.
Drawing illustrative diagrams. |
chart
|
KLB BK IV. PP 35-38
|
|
| 5 | 5 |
GENETICS
EVOLUTION |
Applications of genetics.
Meaning of evolution. Theories of origin of life. |
By the end of the
lesson, the learner
should be able to:
Identify areas of practical application of genetics. Define evolution. Explain the theories of life. |
Probing questions;
Open discussion; Topic review. Brain storming; Q/A on creation theory; Exposition of chemical theory. |
text book,video
text book |
KLB BK IV. PP 39-45
|
|
| 6 | 1-2 |
EVOLUTION
|
Evidence for organic evolution.
Comparative anatomy and homologous structures. |
By the end of the
lesson, the learner
should be able to:
Cite evidence for organic evolution. Define divergent evolution. Give examples of homologous structures. |
Brain storming;
Probing questions; Exposition; Discussion. Examine forelimbs of vertebrates; Discuss adaptations and use of the limbs. |
text book
Forelimbs of vertebrates. |
KLB BK IV. PP 51-59
KLB BK IV. PP 59-63 |
|
| 6 | 3 |
EVOLUTION
|
Comparative anatomy and homologous structures. (contd)
Convergent evolution and analogous structures. |
By the end of the
lesson, the learner
should be able to:
Define divergent evolution. Give examples of homologous structures. Define convergent evolution. Give examples of analogous structures. Give examples of vestigial structures. |
Examine forelimbs of vertebrates;
Discuss adaptations and use of the limbs. Examine wings of insects; wings of birds / bat. Discuss observations. |
Forelimbs of vertebrates.
Wings of insects, wings of birds / bat. |
KLB BK IV. PP 59-63
|
|
| 6 | 4 |
EVOLUTION
|
Convergent evolution and analogous structures.(contd)
|
By the end of the
lesson, the learner
should be able to:
Define convergent evolution. Give examples of analogous structures. Give examples of vestigial structures. |
Examine wings of insects; wings of birds / bat.
Discuss observations. |
Wings of insects, wings of birds / bat.
|
KLB BK IV. PP 63-64
|
|
| 6 | 5 |
EVOLUTION
|
Larmack?s theory of evolution.
Darwin?s theory of natural selection. |
By the end of the
lesson, the learner
should be able to:
Explain Larmack?s theory of evolution. Explain Darwin?s theory of natural selection. Cite examples of natural selection in action. |
Expositions and explanations.
Expositions and explanations; Probing questions; Topic review. |
text book
|
KLB BK IV. P 67
|
|
| 7 | 1-2 |
RECEPTION, RESPONSE &
CO-ORDINATION
|
Meaning of stimulus, response and irritability.
Tactic responses.
Tropism and types of tropism. |
By the end of the
lesson, the learner
should be able to:
Define of stimulus, response and irritability. Explain the need for sensitivity and response. Identify types of tactics responses. Identify types of tropism. State differences between tropisms and taxes. |
Brain storming; Exposition; Group experiments-chemotaxis in termites; Discussion. Examine previous plant set ?ups on response to light, gravity; Probing questions and discussion. |
Brad crumbs, termites, dry sand, moth balls. Seedlings, klinostat, corked beaker. |
KLB BK IV. PP 73-74 KLB BK IV. PP 74-78 |
|
| 7 | 3 |
RECEPTION, RESPONSE &
CO-ORDINATION
|
Nastic responses.
|
By the end of the
lesson, the learner
should be able to:
Identify types of nastic responses |
Q/A and discussion.
|
text book
|
KLB BK IV. PP 78-80
|
|
| 7 | 4 |
RECEPTION, RESPONSE &
CO-ORDINATION
|
Role of auxins in tropisms.
|
By the end of the
lesson, the learner
should be able to:
Explain the role of auxins in tropisms. |
Examine previous plant set ?ups on response to light, gravity; contact;
Probing questions and discussion. |
text book
|
KLB BK IV. PP 80-83
|
|
| 7 | 5 |
RECEPTION, RESPONSE &
CO-ORDINATION
|
Response and
Co-ordination in animals.
The nervous system.
Types of neurons. The brain. |
By the end of the
lesson, the learner
should be able to:
State components of the nervous system. Describe the structure of nerve cells. Identify types of neurons. Describe structure of the human brain. |
Descriptive and expository approaches.
|
Illustrative diagrams.
|
KLB BK IV. PP 84-85
|
|
| 8 | 1-2 |
RECEPTION, RESPONSE &
CO-ORDINATION
|
Reflex actions.
Transmission of a nerve impulse. The endocrine system. |
By the end of the
lesson, the learner
should be able to:
Differentiate between simple and conditioned reflex actions. Describe the transmission of a nerve impulse. Identify components of endocrine system. Compare endocrine system. With nervous system. |
Illustrate a simple reflex arc.
Probing questions on differences between simple and conditioned reflex actions. Descriptive and expository approaches. Discussion; tabulate the differences. |
Illustrative diagrams.
|
KLB BK IV. PP 88-90
KLB BK IV. PP 90-93 |
|
| 8 | 3 |
RECEPTION, RESPONSE &
CO-ORDINATION
|
The mammalian eye.
|
By the end of the
lesson, the learner
should be able to:
Identify major parts of the human eye. Explain image formation and interpretation in the eye. |
Brain storming;
Discussion with probing questions. |
Chart- the human eye.
|
KLB BK IV. PP 93-100
|
|
| 8-9 |
Midterm break |
|||||||
| 9 | 2 |
RECEPTION, RESPONSE &
CO-ORDINATION
|
Accommodation of the eye.
|
By the end of the
lesson, the learner
should be able to:
Explain the role of ciliary muscles in accommodation of the eye. |
Discussion with probing questions,
Drawing illustrative diagrams. |
Chart- focusing far and near points.
|
KLB BK IV. PP 100-1
|
|
| 9 | 3 |
RECEPTION, RESPONSE &
CO-ORDINATION
|
Defects of vision and their correction.
The human ear. |
By the end of the
lesson, the learner
should be able to:
Identify defects of vision. Explain correction of vision defects. Identify major parts of the human ear. |
Detailed discussion with probing questions;
Drawing illustrative diagrams. Descriptive and expository approaches. Drawn diagrams. |
Illustrative diagrams.
|
KLB BK IV. PP 101-4
|
|
| 9 | 4 |
RECEPTION, RESPONSE &
CO-ORDINATION
|
Hearing.
Body balance and posture. Defects of the ear. |
By the end of the
lesson, the learner
should be able to:
Explain how the ear perceives sound. Explain how the ear maintains body balance and posture. Identify some defects of the ear. |
Descriptive and expository approaches.
|
Illustrative diagrams.
text book |
KLB BK IV. P 106
|
|
| 9 | 5 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
Importance of support and movement in plants.
Arrangement of tissues in a monocotyledonous stem. |
By the end of the
lesson, the learner
should be able to:
Explain the importance of support and movement in plants. Draw and label a transverse section of a monocotyledonous stem. |
Brain storming;
Probing questions; Discussion. Examine transverse section of a monocotyledonous stem. |
text book
Monocotyledo-nous stem, eg. tradescantia, microscope, Razors. |
KLB BK IV. PP 111-2
|
|
| 10 | 1-2 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
Arrangement of tissues in a dicotyledonous stem.
Stem tissues. Wilting in plants. |
By the end of the
lesson, the learner
should be able to:
Draw and label a transverse section of a dicotyledonous stem. Draw and label a transverse section of herbaceous and woody stems. Identify some stem tissues. Explain the role of stem tissues. Compare the rate of wilting of herbaceous and woody stems. Account for difference in rate of water loss. |
Examine transverse section of a dicotyledonous stem, herbaceous and woody stems.
Drawing and labeling diagrams; Discussion. Uproot herbaceous and woody plants; Observe tem for about 30 min; Brief discussion. |
Herbaceous stem, microscope, slides,
Razors. Illustrative diagrams. |
KLB BK IV. PP 111-5
KLB BK IV. PP 113-5 |
|
| 10 | 3 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
The exoskeleton.
|
By the end of the
lesson, the learner
should be able to:
Describe the structure of the exoskeleton. |
Examine movement of a live arthropod;
Observe muscles of the hind limb of a grasshopper; Relate the observations to the function of the exoskeleton. |
A live arthropod,
E.g. grasshopper, millipede. |
KLB BK IV. PP 116-7
|
|
| 10 | 4 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
The endoskeleton.
|
By the end of the
lesson, the learner
should be able to:
Describe the structure of the endoskeleton. |
Observe skeleton of a vertebrate;
Compare it with an exoskeleton. Discuss the contrasting features. |
The human skeleton.
|
KLB BK IV. PP 117-8
|
|
| 10 | 5 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
Locomotory features of a finned fish.
|
By the end of the
lesson, the learner
should be able to:
Identify the locomotory features of a finned fish. |
Observe external features of a tilapia.
Drawing and labeling; Discussion. |
A freshly killed tilapi
|
|
|
| 11 | 1-2 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
Locomotion in a finned fish.
Tail power of a fish. Support and movement in mammals. The skull and rib cage. |
By the end of the
lesson, the learner
should be able to:
Explain how locomotion occurs in a finned fish. Explain how a fish is adapted to locomotion in its habitat. Calculate the tail power of a fish. Describe the structure of the skull and rib cage. |
Review external features of a tilapia.
Detailed discussion. Measure length of tail, length of a tilapia fish. Calculations. Discussion on significance of tail power in locomotion. Observe the human skull and rib cage of a rat / rabbit. Detailed discussion. |
A freshly killed tilapia.
Human skull, rib cage of rat / rabbit. |
KLB BK IV. PP 117-8
KLB BK IV. PP 119-120 |
|
| 11 | 3 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
The vertebral column.
Cervical and thoracic vertebrae.
|
By the end of the
lesson, the learner
should be able to:
Describe the features of the vertebral column. Identify types of vertebrae. Explain adaptations of cervical and thoracic vertebrae to their functions. |
Examine cervical and thoracic vertebrae.
|
Cervical and thoracic vertebrae.
|
KLB BK IV. PP 121-2
|
|
| 11 | 4 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
Thoracic and lumbar vertebrae.
The sacral and caudal vertebrae. |
By the end of the
lesson, the learner
should be able to:
Explain adaptations of Thoracic and lumbar vertebrae to their functions. Describe the features of the sacral and caudal vertebrae. Explain adaptations of sacral and caudal vertebrae to their functions. |
Examine thoracic and lumbar vertebrae.
Draw labeled diagrams; Brief discussion. Examine sacral and caudal vertebrae. |
Thoracic and lumbar vertebrae.
Sacral and caudal vertebrae. |
KLB BK IV. PP 122-3
|
|
| 11 | 5 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
The appendicular skeleton.
|
By the end of the
lesson, the learner
should be able to:
Describe the features of the appendicular skeleton. |
Examine the appendicular skeleton of a rabbit /sheep.
Brief discussion.. |
Appendicular skeleton of a rabbit /sheep.
|
KLB BK IV. PP 124-5
|
|
| 12 | 1-2 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
Fore limb.
Hind limb. Movable joints. |
By the end of the
lesson, the learner
should be able to:
Identify bones of the fore limb. Identify bones of the hind limb. Identify features of movable joints. |
Examine bones if the fore limb;
Drawing labeled diagrams; Discussion. Examine bones if the hind limb; Drawing labeled diagrams; Discussion. Examine the synovial joint. Brief discussion. |
Bones of the fore limb.
Bones of the hind limb. Synovial joint model. |
KLB BK IV. PP 126-7
KLB BK IV. P 127 |
|
| 12 | 3 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
Ball and socket joint.
|
By the end of the
lesson, the learner
should be able to:
Identify features of ball and socket joint. |
Examine the synovial joint.
Discuss observations. |
Synovial joint model.
|
KLB BK IV. P 128
|
|
| 12 | 4 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
The hinge joint.
Movement of a joint.
Skeletal muscles. |
By the end of the
lesson, the learner
should be able to:
Identify features of hinge joint. Describe movement of a joint. Describe features of skeletal muscles. |
Examine a hinge joint.
Observe movement of the fore arm; Discussion. Examine diagrams of skeletal muscles; Brief discussion. |
Illustrative diagrams.
|
KLB BK IV. PP 128-9
|
|
| 12 | 5 |
SUPPORT & MOVEMENT IN PLANTS AND ANIMALS
|
Smooth or visceral muscles.
Cardiac muscles. |
By the end of the
lesson, the learner
should be able to:
Describe features of smooth muscles. |
Examine diagrams of smooth muscles;
Brief discussion. Brief discussion; Topic review. |
Illustrative diagrams.
|
KLB BK IV. PP 129-30
|
|
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