3.4.1 Homeostasis 3.4.2 Necessity for Homeostasis 3.4.3 The Structure of an Exchange System in Flowering Plants 3.4.4 The Breathing System in the Human.

3.4.1 Homeostasis3.4.2 Necessity for Homeostasis

3.4.3 The Structure of an Exchange System in Flowering Plants

3.4.4 The Breathing System in the Human

Follow-Me – iQuiz

Q. What is homeostasis?

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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Q. Note one reason why homeostasis is important in the human body.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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Q. What is the function of the stomata of the leaf?

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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Q. Name the structures in plant cells in which photosynthesis occurs.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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Q. Name a gas that leaves the leaf at the stoma(ta).

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. How do the nephrons of the kidneys contribute to homeostasis?

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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Q. Name a factor that influences the diameter of the stoma(ta).

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. Give a function of the guard cell.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. Where do cilia occur in the breathing system?

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. State precisely the events that take place in the alveoli.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. State the function of the epiglottis.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. Name the process involved in the passage of gas between the alveolus and the blood.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. How does the liver contribute to homeostasis?

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

Please CLICK on THIS BOX

for the Next Question

Q. Name the apertures in stems that are equivalent to stomata.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. Name the process by which the gases move in or out of the leaf.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

Please CLICK on THIS BOX

for the Next Question

Q. What is the function of cilia in the trachea?

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

Please CLICK on THIS BOX

for the Next Question

Q. In the spongy mesophyll, gases can diffuse throughout the leaf. Name one such gas.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. Tiny holes called ... allow gases to enter and leave the leaf.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

Please CLICK on THIS BOX

for the Next Question

Q. How do the lungs contribute to homeostasis?

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

Please CLICK on THIS BOX

for the Next Question

Q. How are alveoli adapted for their purpose?

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. Name the main gas transported in the pulmonary vein.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

Please CLICK on THIS BOX

for the Next Question

Q. How is oxygen transported in the blood?

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

Please CLICK on THIS BOX

for the Next Question

Q. State the function of the larynx.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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for the Next Question

Q. Describe the role of the diaphragm in inhalation.

Absorption or release of glucose; Heat generation

Allows normal metabolic activities; Keeps temperature suitable for enzyme reactions

Close off trachea

Chloroplasts

Capillary network; Moist surface; Thin walled; Elastic wall; Large

surface area; One cell thick

Diffusion

Controls stomatal size; Controls passage of gases

Contracts, lowers and increases volume of thorax

CO2; Light intensity; Potassium ions; Water

Excretion of water or CO2; Release of heat

Lenticels

Make sound

Osmosis

Oxygen

Exchange of gases – CO2 out, O2 in by diffusion

Trachea

Stomata

Oxygen; Water vapour; Carbon dioxide; Nitrogen

Their motion carries trapped dirt particles and bacteria

upwards to the glottis

Air; Water vapour; O2; CO2; N2

Excretion or reabsorption of water; Excretion of salts;

Reabsorption of salts

Allow exchange of gases; Transpiration

Maintaining a constant internal environment

By oxyhaemoglobin

CONGRATULATIONS

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