Topic 8- Exchange And Transport In Animals

Question 1

What waste products do your body produce and why must they be excreted?

Answer 1

All chemical reactions in your body produce wastes. They must be excreted so they don’t cause problems.

• Your kidneys produce urea, which is a poison produced by breaking down amino acids.
• your lungs get rid of carbon dioxide produced in aerobic respiration.

Question 2

What kind of substances does your body intake?

Answer 2

• oxygen and glucose needed for aerobic respiration.
• dissolved food molecules (e.g glucose and amino acids) and mineral ions are needed to produce new substances for your body.

Question 3

How did substances move in and out of our body and what adaptations allow this?

Answer 3

Substances move in and out of our body by diffusion. To make sure a lot of substances move quickly the substances need to be:

• thin (so particles don’t need to diffuse very far)
• have a large surface area (so there is more room for particles to diffuse)

Question 4

Why do multicellular organisms need/have transport systems in their body? Give an example:

Answer 4

Because otherwise it would take too long for materials to diffuse through cells on the outside of a tissue to reach cells on the inside.

Ex: humans have a fine network of capillaries in the circulatory system to transport blood to and from cells.

Question 5

How does surface area affect the diffusion rate?

Answer 5

The larger a cells surface the more substances that can diffuse into and out of it in a certain time. However, if a cells volume is too big then the cell cannot fill up with all the materials it needs fast enough.

Question 6

How do you work out the surface area to volume ratio?

Answer 6

Surface area/ volume

THERE ARE NO UNITS

Question 7

When the surface area to volume ratio increases how does this affect the surface area and volume?

Answer 7

The bigger the ratio, the more surface area something has per unit volume. As cells get bigger the SA:V ratio gets smaller. If the ratio is too small a cell cannot get enough raw materials on fats enough. So there is a limit to the cells size.

Question 8

Describe the kind of SA:V ratio an organ in the human body that moves substances in to and about of body would have:

Answer 8

They would have SA:V ratios.

Ex: the human lung has a huge ratio because the lungs are packets worth millions of alveoli, which increase surface area and therefore increase amount of gas exchange.

Question 9

What are alveoli?

Answer 9

They are…

Question 10

How are alveoli adapted?

Answer 10

• one cell thick wall of alveolus.
• one cell thick wall of capillary means faster diffusion
• large surface area
• Blood enters from the body with a higher concentration of carbon dioxide and a lower concentration of oxygen.
• Blood goes to the rest of the body with a lower concentration of carbon dioxide and a higher concentration of oxygen.

Question 11

Define concentration:

Answer 11

The amount of substance in a certain volume. Often measure in gcm 3 or gdm3.

Question 12

What is 1dm equal to?

Answer 12

1dm =1 litre= 1000cm 3

Question 13

What equation do you use to calculate the concentration of a solution in gdm3?

Answer 13

Concentration= mass of solute (g)/ volume of solution (dm3)

Question 14

What happens during a net movement and what causes a net movement of particles?

Answer 14

The particles in a solution move randomly in all directions. This causes an over all ‘net’ movement of the solute particles from a high concentration to a low concentration. Not net movement occurs when concentrations are equal although the particles still move.

Question 15

What does the difference between 2 concentrations form?

Answer 15

A concentration gradient. This bigger the difference, the steeper the concentration gradient and the faster the rate of diffusion.

Question 16

What is meant by a directly proportional relationship?

Answer 16

As one variable increases by a certain amount/percentage, the other increase but the same amount/percent.

E.g
Rate of diffusion is proportional to the rate of concentration gradient.

Question 17

What kind of concentration gradient in maintained in the lungs ?

Answer 17

To keep the rate of diffusion a high a steep concentration gradient must be maintained. In the lungs a good blood supply moves oxygen quickly out of the lungs and this maintains the concentration gradient.

Question 18

When surface area increases what happens to rate of diffusion and why?

Answer 18

When SA (of a membrane) increases it means it means there is more space through which particles can pass. So more particles cross from one place to another in a certain time and so the overall rate of diffusion increases but. BUT...
The rate at which particles pass through each unit area of the surface membrane in unchanged)

Rate if diffusion is proportional to the SA.

Question 19

How does distance affect the rate if diffusion?

Answer 19

The further particles have to diffuse, the slower the rate of diffusion. So increasing the thickness of a membrane decreases the rate of diffusion. This means the relationship is inversely proportional. As one variable doubles the other halves.

Question 20

What is Frick’s law?

Answer 20

It is…

Question 21

How does Frick’s law link the variable to the rate of diffusion?

Answer 21

Rate if diffusion (proportional to) surface area x concentration difference/ thickness of membrane

Question 22

Briefly how does the circulatory system work (using veins capillaries and arteries)?

Answer 22

Blood flows away from the heart into arteries. These divide into narrow capillaries, which form fine networks running through tissues. Blood returns to the heart in veins.

Question 23

How do we feel a pulse?

Answer 23

With each beat our heart squirts blood into arteries under high pressure. This makes artery walls stretch and a wave of stretching then passes along the artery walls. You fell this as a pulse and not your blood moving.

Question 24

How are artery walls adapted?

Answer 24

They are thick to withstand the sudden increase in pressure, when blood squirts into arteries (under high pressure). They are also flexible as they can stretch.

Question 25

How do artery walls make our blood flow more smoothly?

Answer 25

After stretching muscle and elastic fibres in the artery walls cause the arteries to contract again. The stretching and contracting of artery walls causes blood to flow more smoothly.

Question 26

Why do veins have thin walls rather thanks thick walls like arteries?

Answer 26

Because in veins blood fowls under low pressure and only thin walls are needed.

As you move muscles in your skeleton help push blood along the veins.

Question 27

What are valves and where are they found?

Answer 27

Veins contain valves. They prevent blood flowing the wrong way.

Question 28

What are Erythoythes and what are their functions?

Answer 28

Erythoythes are red blood cells. They are packed with haemoglobin. It binds with oxygen in lungs and and releases it again in the tissue.
When a lot of a substance is bound to haemoglobin molecules cells are bright red. When less oxygen is attached they are dark red. They contain no nucleus so there’s more space for haemoglobin and this means a large SA:V ratio for oxygen to diffuse in and out.

Question 29

What are phagocytes and what are their functions?

Answer 29

They are white blood cells. They help remove foreign cells inside humans. They surround the foreign cell and digest them.

Question 30

What are lymphocytes and what are their functions?

Answer 30

They are also white blood cells. They produce proteins called anti-bodies that sticks to foreign cells and digest them. Once creat3 and activated they lie dormant in blood.

Question 31

What are veins, what are their functions and how are they adapted?

Answer 31

They carry blood back to the heart. Wide tube with a thin flexible wall.

Question 32

What are arteries, what are their functions and how are they adapted?

Answer 32

They take blood away from the heart. They have narrow tubes with a thin layer of elastic and muscle fibres.

Question 33

What are capillaries, what are their functions and how are they adapted?

Answer 33

The are located in tissue and allow faster diffusion of substances into and out of capillaries. The wall is one cell thick to allow this to happen and has narrow tubes.

Question 34

What are platelets?

Answer 34

They are tiny fragments of cells that have no nucleus. They produced substances needed to blot blood at the site of an injury such as, when skin is cut. (They help to form a scab).

Question 35

What does plasma do?

Answer 35

It carries dissolved substances such as glucose, carbon dioxide and urea.

Question 36

Joe does a heart attack occur?

Answer 36

When blood stops flowing to muscles in part of the heart, damaging them and stopping the heart pumping properly. Of the heart stops completely it can be started again by an electric shock, using a defibrillator

Question 37

How many chambers are there in the heart?

Answer 37

4

Question 38

How does the heart work? (Step by step)

Answer 38

1) Enters the right atrium through the vena cava (a large vein).
2) at the same time, blood from the kings enters the left atrium through the pulmonary vein.
3) when these chambers are full, muscles around them contract to push blood into the ventricles.
4) Muscles in ventricle wall then contract, forcing blood out of heat.
5) as this happens, muscles in atria walls relax and these chambers refill with blood.

Question 39

What does the aorta do?

Answer 39

Carries blood to the rest of body

Question 40

What does the superior vena cava do?

Answer 40

Brings blood from the upper body.

Question 41

What does the inferior vena cava do?

Answer 41

Bring blood from lower body.

Question 42

What does deoxygenated and oxygenated mean?

Answer 42

Deoxygenated- blood containing little oxygen.

Oxygenated- blood containing a lot of oxygen.

Question 43

Define heart rate:

Answer 43

Number if time the heart beats per minute.

Question 44

Define stroke volume:

Answer 44

The volume of blood pushed into the aorta each beat. Measured in litres.

Question 45

Define cardiac out put:

Answer 45

Volume of blood pushed into the aorta each minute.

Question 46

How can cardiacs output be calculated?

Answer 46

Cardiac output= stroke volume x heart rate

Litres/min) (Litter/beat) (Beat/min

Question 47

How does the nervous system control our heart beat?

Answer 47

The contraction and relaxation of muscles during each heart beat is controlled by impulses from the nervous system.

Question 48

Why do fitter people often have bigger stroke volumes?

Answer 48

Because regular exercising increases the strength of the heart muscle and ventricle size. Therefore fitter people have larger stroke volumes and their hearts can beat more slowly to achieve the same cardiac output as a less fit person.

Question 49

What does your body require a constant supply of energy for?

Answer 49

• moving
• keeping warm
• producing and breaking down substances.

Question 50

What is cellular respiration?

Answer 50

A series of chemical reactions that release energy from glucose. Some energy is transferred out by heating, which helps to keep some animals warm.

Question 51

Is respiration exothermic or endothermic and why?

Answer 51

Exothermic because energy increases the temperature of surroundings as energy is transferred out of cells by heating to keep animals warm which then transfers to surroundings.

Question 52

What is the main the of respiration, what does it require and what is the equation?

Answer 52

Main type is aerobic respiration which needs oxygen. Most of the reaction process occurs in the mitochondria of cells and can be out into the following word equation:

glucose + oxygen ➡️ carbon dioxide + water

Question 53

What are the basic requirements if the circulatory system?

Answer 53

• cells have a good supply oxygen. (Taken In by lungs)
• cells have a good supply of glucose (taken in by small intestine)
• ensures wastes are carried from cells. E.g carbon dioxide.

Question 54

What happens to your breathing and heart rate during exercise and why?

Answer 54

During exercise your muscles need more energy. The rate of aerobic respiration increases and your muscle cells take in more oxygen and glucose from your blood. Your heart beats faster to get more blood to you muscles cells. You breathe faster and deeper to increase the amount of oxygen diffusing into blood in your lungs. Faster breathing also allows your lungs to excrete more carbon dioxide.

Question 55

What is a anaerobic respiration, when and why does it occur and what is the equation for it?

Answer 55

During strenuous exercise oxygen is used up faster than its replaced. When this happens the amount of anaerobic respiration occurring in cytoplasm of cells increases greatly. This form of aerobic respiration requires not oxygen and produces lactic acid.

Glucose ➡️ lactic acid

Question 56

Why do heart and breathing rates remain high after exercise?

Answer 56

Because extra oxygen in needed to replace the oxygen lost from blood and muscles. Extra oxygen is also needed to release the extra energy required to get rid of lactic acid.

Question 57

Why do some animals need anaerobic respiration?

Answer 57

It releases bursts of energy without the need for a sudden increase in oxygen supply. Important when animals need to move fast quickly and suddenly, when sprinting away from a predator.

Question 58

What releases less energy from glucose aerobic respiration or anaerobic respiration?

Answer 58

Anaerobic respiration releases less energy from glucose than aerobic respiration.