TRANSPORT IN PLANTS AND ANIMALS

Transport in Animals. Open and closed circulatory systems. Open circulatory system in insects.
Single and double circulatory systems.

By the end of the lesson, the learner should be able to:



To differentiate between open and closed circulatory systems.

To discuss open circulatory system in insects.


To differentiate between single and double circulatory systems.

Exposition and discussion.

Drawing and labeling diagrams.


Exposition and discussion.
Tracing the path followed by blood from a point and back to the same point.

Charts- Circulatory systems.
Chart- Mammalian double circulation system.

K.L.B. BOOK 2
Pages 18 - 19
K.L.B. BOOK 2
Pages 18-20

TRANSPORT IN PLANTS AND ANIMALS

The mammalian heart ? external structure.

By the end of the lesson, the learner should be able to:
To describe the external structure of the heart.

Exposition; Identifying compartments of the heart.

Model of a heart.

K.L.B. BOOK 2
Pages 21 - 22

TRANSPORT IN PLANTS AND ANIMALS

Internal structure of mammalian heart.

By the end of the lesson, the learner should be able to:
Draw compartments of the heart and label major parts.

Drawing and labeling a diagram of a mammalian heart.

Model of a heart, wallcharts.

K.L.B. BOOK 2
Pages 22 -23

TRANSPORT IN PLANTS AND ANIMALS

Pumping mechanism of the heart.

By the end of the lesson, the learner should be able to:
To differentiate between systolic and diastolic heart movements.

Discussion and Explanations.
Experiment- To investigate pulse rate at the wrist.

Stopwatches.

K.L.B. BOOK 2
Pages 23 - 24

TRANSPORT IN PLANTS AND ANIMALS

Pulse rate.

By the end of the lesson, the learner should be able to:
Explain the origin of pulse.
Explain effect of exercise on pulse rate.

Record number of pulses before and after an exercise.
Brief discussion.

Stopwatches.

K.L.B. BOOK 2
Pages 30 - 31

TRANSPORT IN PLANTS AND ANIMALS

Structure of arteries. Major arteries.

By the end of the lesson, the learner should be able to:
To describe the structure of arteries.

To identify major arteries in the circulatory system.

Discussion
Drawing and labeling internal structure of an artery.

Chart- cross-section of an artery.
Chart-circulatory system.

K.L.B. BOOK 2
Page 25

TRANSPORT IN PLANTS AND ANIMALS

Veins.

By the end of the lesson, the learner should be able to:
To describe the structure of veins.
To explain the need for valves in veins.
To state differences between veins and arteries.

Drawing and labeling diagram of an artery.
Discussion and explanations.

Chart-
cross-sections of major blood vessels in the body.

K.L.B. BOOK 2
Pages 27-29

TRANSPORT IN PLANTS AND ANIMALS

Capillaries.

By the end of the lesson, the learner should be able to:
To describe the structure of capillaries.
To explain the role of capillaries in transport

Discussion and explanations.

text book

K.L.B. BOOK 2
Pages 25-26

TRANSPORT IN PLANTS AND ANIMALS

Diseases and defects of the circulatory system.
Composition of blood. The plasma.

By the end of the lesson, the learner should be able to:
To discuss various diseases and defects of the circulatory system.
To state the constituents of blood plasma.
To identify functions of plasma.

Discussion of various diseases and defects of the circulatory system.
Suggest methods of prevention and control.

Detailed discussion and explanations.

text book

K.L.B. BOOK 2
Pages 31 - 32
K.L.B. BOOK 2
Pages 32 - 33

TRANSPORT IN PLANTS AND ANIMALS

Red blood cells.

By the end of the lesson, the learner should be able to:
To state the functions of red blood cells.
To explain the functions of haemoglobin in r.b.c.

Detailed discussion and explanations.

Wall charts.

K.L.B. BOOK 2
Pages 33 - 34

TRANSPORT IN PLANTS AND ANIMALS

White blood cells.

By the end of the lesson, the learner should be able to:
To describe the structure of white blood cells.
To state functions of white blood cells.

Detailed discussion and explanations.

text book

K.L.B. BOOK 2
Pages 34 - 35

TRANSPORT IN PLANTS AND ANIMALS

Platelets.

By the end of the lesson, the learner should be able to:
To describe the structure of platelets.
To state functions of platelets.

Detailed discussion and explanations.

text book

K.L.B. BOOK 2
Page 35

TRANSPORT IN PLANTS AND ANIMALS

Blood clotting.
Blood groups, Antigens and antibodies.

By the end of the lesson, the learner should be able to:
To describe the blood clotting process.

To explain importance of blood clotting.


To identify the four blood groups.
To identify compatible blood groups.

Exposition of new concepts.
Detailed discussion.
Completing a table of blood groups and the corresponding antigens and antibodies present.

Blood smear, microscope.
Chart-
blood groups, antigens and antibodies.

K.L.B. BOOK 2
Page 36
K.L.B. BOOK 2
Pages

TRANSPORT IN PLANTS AND ANIMALS

Blood transfusion.

By the end of the lesson, the learner should be able to:
To define blood transfusion.
To identify compatible blood groups.
To identify the universal donor and universal recipient.

Q/A: Identifying compatible blood groups.
Open discussion.
Completing a table of compatible blood groups.

Blood transfusion resource person.

K.L.B. BOOK 2
Pages 30 - 31

TRANSPORT IN PLANTS AND ANIMALS

The Rhesus factor.

By the end of the lesson, the learner should be able to:
To describe the Rhesus factor and its significance.

Review blood groups, antigens and antibodies.
Exposition, discussion and explanations.

text book

K.L.B. BOOK 2
Page 38

TRANSPORT IN PLANTS AND ANIMALS

Lymph.
Immune responses.

By the end of the lesson, the learner should be able to:
To describe formation and functions of lymph.

Exposition, discussion and explanations.

Chart- the lymphatic system.
Chart- Diseases that children are immunized against;
Resource person.

K.L.B. BOOK 2
Pages 38 - 40

TRANSPORT IN PLANTS AND ANIMALS
GASEOUS EXCHANGE

Allergic reactions.
Organ transplant.
Introduction. Gaseous exchange in plants.

By the end of the lesson, the learner should be able to:
To define an allergic reaction.
To identify ways in which allergy presents itself.
To explain cause of allergic reactions.




To explain importance of gaseous exchange.

To describe gaseous exchange in plants.

Q/A: Manifestations of allergy.

Exposition and brief explanations.


Discussion
Explanations

Q/A: Products of respiration.
Detailed discussion.

text book

K.L.B. BOOK 2
Page 43
K.L.B. BOOK 2
P. 48

GASEOUS EXCHANGE

Release of CO2 by plants.

By the end of the lesson, the learner should be able to:
To describe an experiment to show release of CO2 by plants.

Class experiments including control experiments.

Explain the observations made.

Bicarbonate indicator, boiling tubes, Aluminum foil.

K.L.B. BOOK 2
P. 49

GASEOUS EXCHANGE

Release of O2 by plants.
Stomata.

By the end of the lesson, the learner should be able to:
To describe an experiment to show release of O2 by plants.

Teacher demonstration: Test for the gas evolved.
Discuss observations.

Gas jar,
Glass funnel,
Water plant,
Beaker.
text book

K.L.B. BOOK 2
P. 49

GASEOUS EXCHANGE

Opening & closing of stomata.
Stomata and habitats of plants.

By the end of the lesson, the learner should be able to:
To describe and explain the mechanism of opening & closing of stomata.

Detailed discussion.

text book
Prepared slides of hydrophytes and xerophytes.

K.L.B. BOOK 2
P. 51

GASEOUS EXCHANGE

Lenticels.
Respiratory surfaces in animals.
Gaseous exchange in protozoa.

By the end of the lesson, the learner should be able to:
To describe and explain the mechanism of lenticels.

To describe the mechanism of gaseous exchange in an amoeba.

Detailed discussion.
Q/A: Review diffusion, structure of an amoeba.
Discuss briefly gaseous exchange in and out of amoeba.

text book

K.L.B. BOOK 2
P. 52
K.L.B. BOOK 2
P. 53

GASEOUS EXCHANGE

Gaseous exchange in insects.

By the end of the lesson, the learner should be able to:
To describe the mechanism of gaseous exchange in insects

Drawing tracheal system of a grasshopper.
Discuss at length the structure of the tracheal system.
Detailed discussion.

text book

K.L.B. BOOK 2
PP. 53, 54

GASEOUS EXCHANGE

Breathing in insects.
Number, position and shape of spiracles of insects.

By the end of the lesson, the learner should be able to:
To describe the breathing mechanism in an insect.

Observe breathing movements of live specimens of grasshoppers, locusts or cockroaches.

Live specimens of insects,
Hand lenses,
Boiling tubes.
Live specimens of insects.

K.L.B. BOOK 2
P. 56

GASEOUS EXCHANGE

Gaseous exchange in a bony fish.
Gaseous exchange in amphibians.

By the end of the lesson, the learner should be able to:
To describe the structure of gills of a bony fish.
To explain how a gill is adapted to function as a respiratory surface.
To explain the mechanism of gaseous exchange in gills.

Drawing and labeling a gill of a fish; stating the function of each part; and stating how it is adapted to its functions.
Detailed discussion.

A gill of a fish.
text book

K.L.B. BOOK 2
PP. 56-57

GASEOUS EXCHANGE

Gaseous exchange in mammals.
The structure of the lungs.
Inhalation.

By the end of the lesson, the learner should be able to:
To list down parts of the tracheal system in man.
To describe the function of the parts of a system respiratory.


To explain adaptations of the lungs to their functions.

Discuss at length man?s respiratory system.
Drawing labeled diagrams coupled with explanations.

Wall chart- Respiratory system in man.
Wall charts- Structure of lungs.
Chart / model of a rib cage.

K.L.B. BOOK 2
P. 59
K.L.B. BOOK 2
P. 60-1

GASEOUS EXCHANGE

Exhalation.
Thoracic cavity model.

By the end of the lesson, the learner should be able to:
To describe the process of exhalation in man.

Showing movements of ribs during exhalation.
Explain the exhalation mechanism.

Chart / model of a rib cage.
Thoracic cavity model.

K.L.B. BOOK 2
PP. 61-62

GASEOUS EXCHANGE

Gaseous exchange in an alveolus.
Rate of breathing in man.

By the end of the lesson, the learner should be able to:
To describe gaseous exchange in an alveolus.
To explain regulation of breathing in man.

Discussion and explanations.

text book

K.L.B. BOOK 2
P. 64

GASEOUS EXCHANGE

Intercostal muscles.

By the end of the lesson, the learner should be able to:
To explain the function of intercostal muscles during the breathing system.

Detailed discussion.
Counting number of inhalations before and after an exercise blow.

Lime water, rib cage model.

K.L.B. BOOK 2
P. 66

GASEOUS EXCHANGE

Inhaled and exhaled air.
Diseases of the respiratory system.

By the end of the lesson, the learner should be able to:
To test for CO2 in the air we inhale/ exhale.
To state the causes, symptoms and prevention of respiratory diseases.

Observe colour changes of lime water, and make deductions.
Brief discussion.
Discuss cause, symptoms and prevention of whooping cough TB, bronchitis, etc.

Lime water.
Resource person.

K.L.B. BOOK 2
P. 67
K.L.B. BOOK 2
PP. 67-70

RESPIRATION

Introduction ? Definition and importance of respiration.
Burning food.
The mitochondrion.

By the end of the lesson, the learner should be able to:
By the end of the lesson, the learner should be able:
To define respiration.
To explain significance of respiration.

Q/A: Definition

Brief discussion of significance of respiration.

text book
Wall charts- The mitochond-rion

K.L.B. BK 2
PP. 73-74

RESPIRATION

Aerobic respiration.
Anaerobic respiration.

By the end of the lesson, the learner should be able to:
To explain phases of aerobic respiration.
To state difference between aerobic and anaerobic respiration.

Detailed discussion.
Writing down equations of food breakdown.

text book
Glucose
Yeast
Thermometer

K.L.B. BK 2
PP.74-76

RESPIRATION

Oxygen ?debt?.

By the end of the lesson, the learner should be able to:
To explain the term ?oxygen debt?.
To explain the effect of ?oxygen debt? on the amount of energy released during respiration.

Probing questions.

Detailed discussion.

text book

K.L.B. BK 2
P.78

RESPIRATION
RESPIRATION
EXCRETION AND HOMEOSTASIS

Applications of anaerobic respiration.
Respiratory substrates & respiratory quotient.
Rate of respiration.
Introduction- Definition and importance of homeostasis and excretion.

By the end of the lesson, the learner should be able to:
To explain applications of anaerobic respiration.
To state and explain factors affecting rate of respiration.

Q/A: Products of fermentation process.
Listing down various applications of anaerobic respiration.

Detailed discussion and explanations.

text book

K.L.B. BK 2
P. 79
K.L.B. BK 2
PP. 80-81

EXCRETION AND HOMEOSTASIS

Excretion in plants.

By the end of the lesson, the learner should be able to:
To name plants excretory products.
To state uses of excretory products of plants.

Probing questions.
Exposition of new terms.
Discuss uses and abuses of plant excretory products.

Some plants excretory products.

K.L.B. BK 2
PP. 83-84

EXCRETION AND HOMEOSTASIS

Excretion and homeostasis in unicellular organisms.

By the end of the lesson, the learner should be able to:
Describe excretion and homeostasis in an amoeba and a paramecium.

Q/A: Review diffusion, structure of an amoeba.
Discuss excretion and homeostasis in an amoeba and a paramecium.

text book

K.L.B. BK 2
PP. 84-85

EXCRETION AND HOMEOSTASIS

Excretion and homeostasis in animals.

By the end of the lesson, the learner should be able to:
To identify excretory organs in various animals.

Exposition and discussion.
Observe drawings of various animals showing excretory organs.

Specimens of platyhelmin-thes, annelida, insects.

K.L.B. BK 2
P. 85