Photosynthesis

Question 1

What is the natural source of light for plants?

Answer 1

sunlight

Question 2

Other than natural light what source of light can you use for plants?

Answer 2

artificial light

Question 3

Where is artificial light used and what is it used for?

Answer 3

Artificial light is often used in greenhouses stimulate growth

Question 4

What can increasing light do?

Answer 4

Increase growth up to a certain saturation point where no more light can be absorbed and photosynthesis will level off

Question 5

How many sources of carbon dioxide do plants have?

Answer 5

Plants have 2 sources of carbon dioxide one is external the other is internal

Question 6

Where do plants get most of their carbon dioxide from?

Answer 6

the atmosphere - this is external

Question 7

Where do plants get carbon dioxide from internally?

Answer 7

their own cellular respiration

Question 8

What is sometimes used to stimulate growth in a greenhouse?

Answer 8

Artificial sources of carbon dioxide e.g. burning gas in a greenhouse

Question 9

Why are artificial sources of carbon dioxide sometimes used?

Answer 9

to stimulate growth e.g. burning gas in a greenhouse

Question 10

What is an example of an artificial source of carbon dioxide?

Answer 10

burning gas in a greenhouse

Question 11

How is water absorbed from the soil and what does travel up?

Answer 11

By the roots of plants, the stem

Question 12

What is water absorbed from the soil used for in plants?

Answer 12

photosynthesis

Question 13

How many stages of photosynthesis are there are what are they called?

Answer 13

2

Light Stage and Dark Stage

Question 14

Where does the light stage take place?

Answer 14

In the grana of the chloroplast

Question 15

What does the light stage involved?

Answer 15

the very fast movement of electrons and is not controlled by enzymes

Question 16

Is the light stage controlled by enzymes?

Answer 16

no

Question 17

What is light absorbed by?

Answer 17

A range of pigment clusters found in the chloroplast (almost all colours of light are absorbed but green is normally reflected)

Question 18

What colours of light are absorbed by pigment clusters?

Answer 18

almost all of them

Question 19

What colours of light are reflected by pigment clusters?

Answer 19

green

Question 20

Where is the range of pigment clusters found?

Answer 20

in the chloroplast

Question 21

What is the light energy transferred to after being absorbed by pigment clusters?

Answer 21

the electron that has been passed to the chlorophyll

Question 22

Where is the chlorophyll that the electron is passed to?

Answer 22

in the pigment cluster and strategically placed near an electron acceptor

Question 23

What does the pigment cluster do?

Answer 23

Absorbs as much light energy as possible and passes it to the chlorophyll which passes it to the electron

Question 24

What is the energised electron passed to after it absorbs as much light energy as possible?

Answer 24

The energised electron is passed to the electron acceptor which can the send it on one of two pathways

Question 25

How many pathways can the energised electron be sent on?

Answer 25

1 of 2

Question 26

draw a diagram of the light stage

Answer 26

with pigments in pretty colours

Question 27

What happens in Electron Flow Pathway 1?

Answer 27

In pathway 1 the electrons pass from the first electron acceptor to a series of other electron acceptors and back again to the chlorophyll.

Question 28

What happens as the electrons are passed around?

Answer 28

As the electrons are passed around they lose energy

Question 29

What is energy lost by electrons used for?

Answer 29

To join a phosphate to ADP to form high energy ATP. Water is also formed in this process.

Question 30

What is formed by energy lost by electrons other than high energy ATP?

Answer 30

Water

Question 31

Write a formula for cyclic phophorylation

Answer 31

ADP + Energy + P -> ATP + Water

Question 32

What is phosphorylation?

Answer 32

The addition of phosphate to ADP is called phosphorylation

Question 33

What is Cyclic Phosphorylation?

Answer 33

The addition of phosphate to ADP while an electron travels in a cycle and returns to its original chlorophyll

Question 34

What happens first in electron pathway 2?

Answer 34

2 high energy electrons at a time are passed from chlorophyll to the electron acceptor and then along another series of electron acceptors. In this case the electrons do not return to the original chlorophyll. They lose energy as they pass from electron acceptor to electron acceptor and this energy is used to make more ATP.

Question 35

Do electrons in pathway two return to the original chlorophyll?

Answer 35

no

Question 36

How many electrons are passed down electron pathway two from the chlorophyll to the electron acceptor at a time?

Answer 36

2 high energy electrons at a time

Question 37

What happens after the electron is passed from electron acceptor to electron acceptor and the extra energy is to make ATP?

Answer 37

the 2 electrons are passed to combine with NADP+ to form NADP-. The chlorophyll molecule is now short of electrons and gains more from the splitting of water. The splitting of water using light energy is called photolysis.

Question 38

what is the splitting of water using light energy called?

Answer 38

photolysis

Question 39

What happens when the 2 electrons in pathway 2 combine with NADP+?

Answer 39

it forms NADP-

Question 40

How does the cholorophyll molecule gain electrons when it is short of them in pathway 2?

Answer 40

the splitting of water

Question 41

What is attracted to NADP-? What happens because of this?

Answer 41

The protons that were stored in the proton pool are attracted to NADP- and combine with it to form NADPH.

Question 42

What is pathway 2 also known as and why?

Answer 42

Because the electrons start at a chlorophyll and finish at NADPH and form ATP on their way this pathway is known as Non cyclic photophosphorylation.

Question 43

Draw a diagram of pathway 2

Answer 43

now

Question 44

What are the two different sections of the light stage?

Answer 44

Phosphorylation Making ATP

Photolysis Splitting Water

Question 45

What are the five stages of phosphorylation?

Answer 45

Chlorophyll traps sunlight, electrons are energised, electrons lose energy to ADP which joins with P to form ATP, Other electrons join with NADP to form NADP-, Hydrogen ions join with NADP- to form NADPH.

Question 46

Show the stages of photolysis?

Answer 46

Water (H20) split into Hydrogen ions H+ (Used to convert NADP to NADPH), Electrons E- (Go back to chlorophyll), Oxygen O2 (By product, excreted through a leaf)

Question 47

How many end products of the light stage are there?

Answer 47

There are three end products of the light stage

Question 48

Name the three end products of the light stage?

Answer 48

ATP this will provide energy for the dark stage
NADPH this will provide protons + energised electrons for the dark stage
Oxygen is made when water is split

Question 49

What is photosynthesis?

Answer 49

Plants making their own food

Question 50

What are the roles of photosynthesis?

Answer 50

Plants use it to make food
Animals get their food from plants
It produces oxygen which is needed in respiration to produce energy
It is responsible for forming fossil fuels
It removes carbon dioxide from the air

Question 51

Write a balanced equation for photosynthesis

Answer 51

6CO2 (carbon dioxide) + H2O (water) + light -> C6H12O6 (glucose) + 6O2 (oxygen)

Question 52

What does photosynthesis require?

Answer 52

carbon dioxide, water, light energy, chlorophyll

Question 53

What does photosynthesis produce?

Answer 53

Glucose and waste oxygen

Question 54

What does photosynthesis convert into what?

Answer 54

Light energy -> chemical energy

Question 55

What kind of energy is light energy converted into in photosynthesis?

Answer 55

glucose

Question 56

What are the stages of photosynthesis?

Answer 56

Light is absorbed
Water is split
Products are produced (4 protons, 4 electrons and oxygen)
Light energises electrons
Glucose is formed

Question 57

How is light absorbed in photosynthesis?

Answer 57

The light that reaches a plant is trapped by chlorophyll
Chlorophyll is found in the chloroplasts of plant cells
Therefore photosynthesis occurs in chloroplasts
The trapped light provides the energy the plants need to make glucose

Question 58

How is water split in photosynthesis? con ecuación

Answer 58

Some of the trapped light energy is used to split water into oxygen gas (O2) protons (H+) and electrons (e-)
Summarised as 2H2O -> 4H+ and 4e- and O2

Question 59

What happens to these products?

Answer 59

1. The electrons are passed to chlorophyll
2. The protons are stored in a proton pool for later use
3. The oxygen may pass out of the leaf into the atmosphere or else may be used for plant respiration

Question 60

How does light energise electrons?

Answer 60

The electrons that were passed to the chlorophyll become energised by some of the trapped light energy – this changes them into high energy electrons

Question 61

How is glucose formed?

Answer 61

The high energy electrons along with protons from the proton pool are combined with carbon dioxide to form glucose (C6H12O6)

Question 62

What may the dark stage also be referred to as? Why?

Answer 62

This may also be called the light independent stage as it can occur in the light but does not need to use it

Question 63

Where does the dark stage take place?

Answer 63

In the stroma of the chloroplast

Question 64

What is the dark stage controlled by? What feature does this fact cause?

Answer 64

enzymes

Can be affected by temperature

Question 65

What happens in the dark stage?

Answer 65

Carbon dioxide from the air enters the chloroplast where they combine with protons + electrons to form glucose

Question 66

What do the dark stage require?

Answer 66

energy and protons + electrons

Question 67

What does the dark stage obtain energy from?

Answer 67

It uses energy got from breaking down ATP into ADP + P

Question 68

What does the dark stage obtain hydrogen ions and electrons from?

Answer 68

It uses hydrogen ions and electrons got from breaking down NADPH into NADP+ + 2 electrons + H+

Question 69

What is reduction?

Answer 69

the addition of electrons to anything

Question 70

What is carbon dioxide reduced to?

Answer 70

Glucose

Question 71

What happens at different stages of the dark stage?

Answer 71

1. CO2 is reduced
2. Oxygen atom is removed, hydrogen ions are added and electrons are added
3. Glucose is formed (C6H12O6)

Question 72

What are the main events in photosynthesis?

Answer 72

Light energy is absorbed by chlorophyll
Water is split
The electrons are passed to chlorophyll
The protons are stored in the chloroplasts
The oxygen is released
Sunlight transfers energy to electrons
The high energy electrons, stored protons (the hydrogen ions) and carbon dioxide are used to make glucose

Question 73

Draw a diagram of photosynthesis

Answer 73

with skittles

Question 74

What play a vital role in trapping and transferring energy in cellular activities?

Answer 74

ATP, NADP+ and NAD+

Question 75

What is ADP an abbreviation of and what is it?

Answer 75

ADP is an abbreviation for Adenosine Diphosphate this is a molecule found in the cells of all organisms

Question 76

What is ADP made of?

Answer 76

The base adenine, a 5 carbon sugar called ribose and 2 phosphate groups

Question 77

What type of molecule is ADP?

Answer 77

A low energy molecule

Question 78

If another phosphate is added to ADP what does it form?

Answer 78

ATP

Question 79

What is ATP an abbreviation of?

Answer 79

Adenosine Triphosphate

Question 80

What is also added when ADP turns into ATP? Why?

Answer 80

extra energy as there is an extra bond between the last two phosphate groups

Question 81

What is addition of a phosphate (e.g ADP to ATP) called?

Answer 81

phosphorylation

Question 82

What is ATP rich in and how is it stored?

Answer 82

energy

by carrying it around in the cell

Question 83

Can ATP store energy for long? Why?

Answer 83

No, it breaks down, releasing energy and converting back to ADP.

Question 84

How fast do most cells release energy from ATP? What is this energy used for?

Answer 84

10 million times every second

cellular reactions

Question 85

What is NADP+?

Answer 85

A low energy molecule involved in photosynthesis

Question 86

What can NADP+ combine with?

Answer 86

2 high energy electrons and a proton to form NADPH

Question 87

What is NADPH?

Answer 87

A very high energy molecule

Question 88

What is NADPH’s energy used for?

Answer 88

To form glucose in photosynthesis

Question 89

What is NAD+ used in?

Answer 89

respiration

Question 90

What can NAD+ combine with and what does this form?

Answer 90

2 high energy electrons and a proton to form NADH which is very high in energy

Question 91

What are NADP+ and NAD+ used for and how do we remember this?

Answer 91

NADP+ is used in photosynthesis and NAD+ is used in respiration. Remember P for photosynthesis.

Question 92

What do both NADH and NADPH release when they break down into NAD+ and NADP+? What is this used for?

Answer 92

Electrons, protons and energy used by cells