Unit 4 - Photosynthesis + uses of photosynthesis + rate of photosynthesis

Question 1

What do plants use as their sources of energy

Answer 1

Plants use light for their source of energy

Question 2

Define photosynthesis

Answer 2

Photosynthesis is the process by which plants make food using carbon dioxide, water and light

Question 3

The ______ that plant use to trap this ______ energy is called _______

Answer 3

The reaction that plants use to trap this light energy is called photosynthesis

Question 4

photosynthesis is an _____
reaction in which _______ is transferred from the ________to the
_________by _______.

Answer 4

photosynthesis is an endothermic
reaction in which energy is transferred from the environment to the
chloroplasts by light.

Question 5

What type of reaction is photosythesis. Why?

Answer 5

Photosynthesis is an example of an endothermic reaction. This is because photosynthesis takes in energy
This means that energy is transferred from the environment in the process

Question 6

Where does photosynthesis take place

Answer 6

Photosynthesis takes place in the leaves of a plant in the chloroplasts.

Question 7

What do leaves contain

Answer 7

Leaves contain the green chemical chlorophyll. Chlorophyll can absorb the light energy

Question 8

Describe the process of photosynthesis

Answer 8

In the first stage of photosynthesis, the plant takes in carbon dioxide and water

Light energy is then absorbed by chlorophyll

This light energy is then used to convert the carbon dioxide from the air and water from the soil into the sugar glucose.
In this reaction oxygen is also produced

Question 9

Describe the path taken by a carbon atom as it moves from being part of the carbon dioxide in the air to being part of a starch molecule in a plant

Answer 9

Carbon atom moves from air into air spaces in leaf,
into plant cells,
into chloroplasts,
joins with water to make glucose,
and is converted to starch for storage

Question 10

Explain why photosynthesis is an endothermic reaction

Answer 10

Photosynthesis needs a bigger input of energy from environment
to break bonds holding carbon dioxide and water together
that is released when new bonds form in glucose and oxygen.

Question 11

Where in the plant does most photosynthesis happen (which tissue)

Answer 11

The palisade mesophyll is the tissue where most photosynthesis happens

Question 12

State the word equation for photosynthesis

Answer 12

carbon dioxide + water → glucose + oxygen

add the word ‘light’ over the arrow

Question 13

State the symbol equation for photosynthesis

Answer 13

CO2 +H2O → C6H12O6 +O2

add the word ‘light’ over the arrow

Question 14

State the factors that affect photosynthesis

Answer 14

Carbon dioxide concentration
Temperature
Light intensity
Amount of chlorophyll in a plant

Question 15

State the uses of glucose produced by photosynthesis for plants

How plants use glucose

Answer 15

The glucose produced in photosynthesis may be:

• used for respiration
• converted into insoluble starch for storage
• used to produce fats or oils (lipids) for storage
• used to produce cellulose, which strengthens the cell wall
• used to produce amino acids for protein synthesis.

Question 16

Explain why the glucose produced in photosynthesis can be used for respiration

Answer 16

The glucose produced in photosynthesis can be broken down to release energy in respiration which is used for cellular processes such as active transport

Question 17

Explain the use of insoluble starch after it has been produced by glucose

Answer 17

The glucose produced in photosynthesis can be converted into the carbohydrate, starch and stored in the roots, leaves and cells.

These stores are used when photosynthesis isn’t happening e.g. at night or winter

The starch can be converted back to glucose by the plant when it is needed.

Question 18

Why is it important that the starch used for storage is insoluble

Answer 18

Starch is insoluble which makes it much better for storing than glucose.
This is because a cell with lots of glucose in would draw in loads of water (by osmosis) and swell up.

Question 19

Explain how the glucose produced in photosynthesis can used to produce fats or oils (lipids) for storage

Answer 19

The glucose produced in photosynthesis can be converted to fats or oils.
Fats and oils are used by the plant as a storage form of energy.

These are stored mainly in seeds and are used as a compact energy store

Question 20

Explain why the glucose produced in photosynthesis can be used to produce cellulose

Answer 20

The glucose produced by photosynthesis is converted into cellulose which strengthens the cell wall

Question 21

Explain why the glucose produced in photosynthesis can be used to produce amino acids

Answer 21

The glucose produced in photosynthesis is combined with nitrate ions (which plants absorb from the soil) to produce amino acids for protein synthesis.

Question 22

When does photosynthesis only produce glucose

Answer 22

Photosynthesis only produces glucose during the day, when there is light

Question 23

When do plant cells respire

Answer 23

Plant cells respire all the time including at night

Question 24

What factors affect the rate of photosynthesis

Answer 24

Temperature
Light intensity
Carbon dioxide concentration
Amount of chlorophyll in the leaves

Question 25

Describe and explain the trend in a light intensity/rate of photosynthesis graph

Answer 25

As light intensity increases, so does rate of photosynthesis, up to a certain point.

This indicates that light intensity is limiting factor.

However, after a certain point, an increase in light intensity has no effect on rate of photosynthesis …

… (the rate of photosynthesis no longer increases as light intensity increases) …

This indicates that light intensity is no longer limiting factor and something else probably is, such as: temperature or CO2 concentration

Question 26

How do you know if a particular variable was a limiting factor

Answer 26

If we increase the light intensity, and the rate of photosynthesis increases, it shows that light intensity was the limiting factor (photosynthesis was not as fast as it could have been because there was not enough light)

Question 27

How do you know if a particular variable is no longer a limiting factor

Answer 27

If we keep on increasing light intensity there comes a point where the rate of photosynthesis no longer increases. This shows to us that at this point, light intensity is no longer the limiting factor.

Something else is now in short supply - co2 concentration

Question 28

Describe and explain the trend in a carbon dioxide concentration/rate of photosynthesis graph

Answer 28

As carbon dioxide increases, so does rate of photosynthesis, up to a certain point.

This indicates that light intensity is limiting factor.

However, after a certain point, an increase in carbon dioxide concentation has no effect on rate of photosynthesis …

… (the rate of photosynthesis no longer increases as carbon dioxide concentration increases) …

This indicates that carbon dioxide is no longer limiting factor and something else probably is, such as: temperature or light intensity

Question 29

Describe and explain the trend in a temperature/rate of photosynthesis graph

Answer 29

As we increase the temperature, the enzymes involved in photosynthesis work faster so the rate increases

This indicates that temperature is limiting factor

If we keep increasing the temperature, the enzymes in the leaf will denature and the rate of photosynthesis fall.

Enzyme graph

Question 30

What is the effect of a low temperature on the rate of photosynthesis

Answer 30

If the temperature is the limiting factor its because its too low - the enzymes needed for photosynthesis work more slowly at low temperatures

Question 31

Explain how greenhouses are used to increase the rate of photosynthesis

Answer 31

Increasing the rate of photosynthesis, increases the yield of crops farmers produce.

To do this, farmers light and heat their greenhouses. They also add extra carbon dioxide.

Light is needed for photosynthesis
Artificial light can be provided to keep the plants photosynthesising efficiently (even at night)

CO2 can be added to the greenhouse (e.g. using paraffin heaters to heat the greenhouse and generate CO2 as a by-product. This is cost effective)
4

Due to the cost of doing this, (the extra cost has to be justified by the increase in yield)

Keeping plants in a greenhouse makes it easier to keep pests and diseases at bay. Fertilizers can be added to the soil to provide minerals for healthy growth

Question 32

Explain the effect of amount of chlorophyll in the leaves regarding the rate of photosynthesis

Answer 32

The amount of chlorophyll in a plant can be affected by a disease.
E.g. a leaf with patches of chlorophyll/tobacco mosaic virus

These leaves trap less light energy than normal leaves, therefore they will have a lower rate of photosynthesis

Question 33

All living cells _________

Answer 33

All living cells respire

Question 34

How can plants also produce proteins

Answer 34

To produce proteins, plants also use nitrate ions that are absorbed from the soil

Question 35

The energy we need is supplied by a process called

Answer 35

Cellular respiration

Question 36

What type of reaction is respiration and why?

Answer 36

Exothermic reaction because it releases energy

Question 37

When does respiration take place.

Answer 37

Respiration takes place continually in all living cells

Question 38

Why do organisms need energy

Answer 38

Organisms need energy for

chemical reactions to build larger molecules • movement
• keeping warm.

Question 39

Types of respiration

Answer 39

Aerobic
Anaerobic

Question 40

What is respiration (aerobic)

Answer 40

Aerobic respiration is an exothermic reaction in which glucose is broken down using oxygen, to produce carbon dioxide and water and release energy for the cells

Question 41

What is anaerobic respiration

Answer 41

Anaerobic respiration is an exothermic reaction in which glucose is broken down in the absence of oxygen to produce lactic acid in animals and ethanol and carbon dioxide in plants and yeast

Question 42

Word equation for aerobic respiration

Answer 42

glucose + oxygen — carbon dioxide + water

Question 43

What happens during aerobic resporation

Answer 43

In aerobic respiration, the glucose is reacted with oxygen gas
This produces carbon dioxide and water and releases energy

Question 44

When do cells start respiring anaerobically

Answer 44

When there is a shortage of oxygen, muscle cells start respiring anaerobically

Question 45

Explain why aerobic respiration releases a great deal of energy

Answer 45

That is because the glucose molecule has been fully oxidised

Question 46

Explain why anaerobic respiration releases a lot less energy than aerobic respiration

Answer 46

As the oxidation of glucose is incomplete in anaerobic respiration much less energy is transferred than in aerobic respiration

Question 47

What is glucose needed for

Answer 47

Needed for growth
Metabolic reactions

Question 48

Anaerobic respiration in muscles is represented by the equation:

Answer 48

glucose ———- lactic acid

Glucose is converted to lactic acid. Anaerobic respiration does not require any oxygen.
Oxygen is not needed for this reaction

Question 49

Anaerobic respiration in plant and yeast cells is represented by the equation:

Answer 49

glucose ———- ethanol + Co2

Glucose is converted to ethanol and co2, no oxygen is needed for this reaction

Question 50

what is fermentation

Answer 50

Anaerobic respiration in yeast cells

Question 51

What is anaerobic respiration in yeast cells called and what is it used for

Answer 51

Anaerobic respiration in yeast cells is called fermentation and has economic importance in the manufacture of bread and alcoholic drinks.

This reaction is used to make alcoholic drinks. The alcohol in these drinks is ethanol which is produced by fermentation

For bread : the co2 produced by fermentation is useful. This creates bubbles in the dough causing the bread to rise

Question 52

Describe the body’s response to exercise

Describe what happens in the body during exercise

Answer 52

During exercise the human body reacts to the increased demand for energy.

During exercise the body needs a lot of energy for muscle contraction

Because the body needs more energy, aerobic respiration increases

This means that the body cells require more oxygen

To provide this extra oxygen, both the breathing date and breath volume increase.
(We breathe more frequently and take deeper breaths)

This gets more oxygen into the blood stream

The heart rate increases to pump this oxygenated blood around the body.

_________

The heart rate, breathing rate and breath volume increase during exercise to supply the muscles with more oxygenated blood.

Question 53

Describe what happens if insufficient oxygen is supplied to the muscles, whilst the body is exercising hard

Answer 53

If insufficient oxygen is being supplied in the muscles, anaerobic respiration takes place in muscles.

During anaerobic respiration, , the oxidation of glucose in incomplete. This causes a build up of lactic acid and creates an oxygen debt

During long periods of vigorous activity muscles become fatigued and stop contracting efficiently.

Question 54

When can anaerobic respiration start taking place in the muscles

Answer 54

if insufficient oxygen is supplied to the muscles, whilst the body is exercising

Question 55

Explain the role of the liver and how lactic acid is removed (produced by anaerobic respiration)

Answer 55

The lactic acid is transported out of the muscles by the blood.

The lactic acid is then taken to the liver and converted back to glucose in a series of chemical reactions

Reacting with the accumulated lactic acid and removing it from the cells requires oxygen

The oxygen debt is the amount of extra oxygen the body needs after exercise to react with the accumulated lactic acid and remove it from the cells

Question 56

What is an oxygen debt

Answer 56

The oxygen debt is the amount of extra oxygen the body needs after exercise to react with the accumulated lactic acid and remove it from the cells

Question 57

Explain why people continue breathing rapidly for some time after finishing exercise

Answer 57

During exercise, the muscles can start respiring anaerobically if insufficient oxygen is being supplied to the muscles

When the exercise is over, the lactic acid has to be broken down to produce carbon dioxide and water. This requires oxygen

The amount of oxygen needed to break down the lactic acid to carbon dioxide and water is known as the oxygen debt

Therefore people continue breathing rapidly for some time after finishing exercise (their heart rate and breathing rate remain high), to supply the oxygen needed to pay off the oxygen debt

(get more oxygen into the blood, which is transported to the muscles cells)

Question 58

The bigger the oxygen debt …
The effect of a big oxygen debt

Answer 58

The bigger the oxygen debt, then the larger amount of lactic acid in your body, as a result, more oxygen is needed to break down the lactic acid to carbon dioxide and water.

Therefore you will continue to breathe rapidly for a longer amount of time

Question 59

Effects of lactic acid

Answer 59

During long periods of vigorous activity , the lactic acid causes the muscles become fatigued.

This causes the muscles to stop contracting efficiently

Question 60

Proteins are made by ______

Answer 60

Chemically joining amino acids

Question 61

Why do muscles need a lot of energy

Answer 61

Muscles need a lot of energy for contraction

Question 62

What happens in muscle cells when there is a shortage of oxygen

Answer 62

Muscle cells respire anaerobically

Question 63

Anaerobic respiration does not require any ______

Answer 63

Oxygen

Question 64

Which type of respiration releases the least amount of energy

Answer 64

Anaerobic respiration releases much less energy than aerobic respiration

Question 65

Explain why a lot of energy is not used when you are sitting down

Answer 65

Because you are not moving.

Question 66

Why does the body need a lot of energy when we are exercising

Answer 66

For muscle contraction

Question 67

what are the waste products in aerobic respiration
what do the body cells need from respiration

Answer 67

Waste products - Co2 and water
The body cells respire to release energy needed for movement, keeping warm and for chemical reactions to build larger molecules