blood circulation and transport module
TRANSCRIPT
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Chapter 2 : Blood Circulation and Transport
2.1 Understanding the transport system in human
1. Label the diagram of the heart by using the words given below.
Left ventricle Right ventricle Left atrium Right atrium Pulmonary vein Aorta
Tricuspid valve Pulmonary artery Vena cava Semilunar valves Bicuspid valve
2. Three types of valve in the heart.
Type of valve Function
Tricuspid
Bicuspid
Semilunar
3. Blood vessels are tube in the body that channel blood. Four blood vessels are connected to the heart.
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Type of blood vessel Function
Vena cava
Pulmonary artery
Pulmonary vein
Aorta
4. Complete the table below to shows the comparison between the atriums and the ventricle.
Atriums Characteristics Ventricles
Function
Wall
Space
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1. Complete the flow chart below to show how blood circulates from the vena cava through the heart, to all parts of thebody.
Lungs
All parts
of the
body
Key:
Blood vessel valve Heart
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2 a) Compare the blood vessel in the human body
Existence
of valve
Blood capillary Artery Vein
Structure
Function
Type of
blood
carried
Rate of
blood
flow
Thickness
of wall
Lumen
size
Blood
pressure
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2. b) Name the type of blood vessel J,K and L and type of blood M and N in the following diagram.
3 Figure below shows the blood circulation.
a) Label the blood circulation T and U in the diagram.
b) Name the blood vessel
i) P :
ii) Q :
iii) R :
iv) S :
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4. Comparison between oxygenated blood and deoxygenated blood
2.2 HUMAN BLOOD
1. Human blood consists of two components:
Oxygenated blood Deoxygenated blood
Difference
Oxygen
Carbon dioxide
The
concentration
of digested
food (like
glucose and
amino acid)
Waste products
Blood vessel that
carries it
Deoxygenated blood has to be carried to the lungs to change it into oxygenated blood
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(a) plasma (55%)
(b) blood cells (45%)
2. Write the functions of blood in the following diagram.
3. Comparing red blood cells, white blood cells abd platelets
Characteristics Red blood cells White blood cell Platelets
Plasma
(55%)
Blood cell
(455%)
Nutrient
Hormones
Heat
Inorganic ions
Dissolved gases
Waste products
Red blood cells (Erythrocytes)
White blood cell (Leucocytes)
Platelets (Thrombocytes)
FUNCTIONS
OF BLOOD
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Diagram
Shape No fixed shape
Function Help blood clot
Presence of nucleus
Place of production
Presence of
heamoglobin
Presence of
cytoplasm
Life span
4. Complate the chart below
Blood group Can donate blood to Can receive blood from
A 1
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5. If the donors blood and the recipients blood are not compatible, what will happen to the blood and what are the
effects?
2.3 Transport system in plantsa. Complete the following chart.
B
AB
O
3
AB
6
2
4
5
O
Donors blood Recipients blood
Are not compatible
What will happen to the blood?
.............................. may take place
Cause
Can be ...........................................
TRANSPORT SYSTEM IN PLANT
Stomata Xylem Phloem
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ACTIVITY 1
The apparatus in figure 1 was used in a science activity.
Transpiration
__________________________
__________________________
__________________________
The importance
Affecting factors
1.2.3.4.
Part Monocotyledon plant Dicotyledon plant
Function
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FIGURE 1
The following steps were carried out:Step 1 : Two similar hibiscus plants, about 25 cm tall, were selected.Step 2 : The plants were pulled out of the soil and the roots were washed to remove any remaining soil.Step 3 : The plants were trimmed until ten leaves were left on each plant.Step 4 : Each plant was placed in a measuring jug filled with water, and labelled Fand G, as shown in the figure
above.Step 5 : 10 ml of cooking oil was poured into each jug.Step 6 : A layer of grease was applied to the leaves in G.Step 7 : The plants were placed in the Sun for three hours. The initial and final water levels in both jugs were
recorded in the table below.
Plant F Plant G
Initial water level 75 ml 75ml
Final water level 68 ml 75 ml
(a) Suggest a hypothesis for this experiment.
(b) What are the three variables that are kept constant in this experiment?
(c) Name the variable that(i) is manipulated :
(ii) responds :
(d) Name two processes in plants that require the uptake of water from the roots.
(e) What conclusion can you draw from this experiment?
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(f) How is water transported in plants?
(g) Describe the direction in which water is transported in plant
STRUCTURE QUESTIONS
1 Figure 4(a) shows two similar healthy plants in two different pots of the same
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amount of soil and nutrients. The bark of one of the plants is removed, leaving a cut ring. Figure 4(b) shows the cut ringat the initial stage.
Figure 4(a) Figure 4(b)
(a) Draw a diagram to show the final result of the experiment. Indicate the results on the diagram clearly.
(b) What is the hypothesis of this experiment?
(c) Name the variables stated below:
i. constant variable:
ii. manipulated variable:
iii. responding variable:
(d) State the inference for the observation.
(e) Make a conclusion for this experiment.
(f) Predict the condition of the plant when left uncared for two months.2 Figure 5 shows the apparatus set up for an experiment
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Figure 5
The experiment is set up with the following steps.1. Set up the apparatus as shown in diagram 3 (a)2. Weigh the apparatus and record its weight3. Leave the apparatus on a table in a bright room.
4. Repeat step 1 but place the apparatus in a cupboard as shown in diagram6 (b) in the same room.
5. The weights of the plants and the apparatus are taken hourly.
The results of the experiment are shown in table 1
Time of the dayWeight of the plant andapparatus on a table in abright room
Weight of the plant andapparatus place in a cupboard
10 am 600 g 600 g
11 am 590 g 595 g
12 pm 580 g 590 g
1 pm 570 g 585 g2 pm 560 g 580 g
Table 1
a) What is the objective of the experiment?
__________________________________________________________
b) State the variables in the experiment
i. Manipulated variable : ______________________________
ii. Responding variable : ______________________________
iii. Constant variable : ______________________________
c) Based on the result, draw a bar chart to show the weight of the apparatus under different conditions.
(b)
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d) Calculate the rate of transpiration based on the result found in Table 1What conclusion can be made from this experiment?
_____________________________________________________________________
f) State one hypothesis from the experiment.
_____________________________________________________________________
_____________________________________________________________________g) List two other factors which control the rate of transpiration.
i. ________________________________________
ii. ________________________________________