Cell Biology

Question 1

What are the two types of cells?

Answer 1

Eukaryotic (plants and animals) and prokaryotic (bacteria)

Question 2

What are the differences between eukaryotic and prokaryotic cells?

Answer 2

Prokaryotic cells are much smaller than eukaryotic cells
Eukaryotic cells contain membranes bound-organelles and a nucleus containing genetic material, while prokaryotes don’t

Question 3

What do animal cells contain?

Answer 3

Nucleus, cytoplasm, cell membrane, mitochondria, ribosomes

Question 4

What do plant cells contain?

Answer 4

cell wall, cell membrane, cytoplasm, vacuole, nucleus and chloroplasts

Question 5

What do bacteria cells contain?

Answer 5

cell wall, plasma membrane, cytoplasm, capsule, ribosomes, plasmid, pili, nucleotide and bacteria flagellum

Question 6

What are prokaryotic cells?

Answer 6

Cells without a nucleus

Question 7

What are eukaryotic cells?

Answer 7

Cells with a nucleus

Question 8

What is an organelle?

Answer 8

A tiny cell structure that carries out a specific function within the cell

Question 9

What is the function of the nucleus?

Answer 9

Contains DNA coding for particular protein needed to build new cells and enclosed in the nuclear membrane

Question 10

What is the function of the cytoplasm?

Answer 10

Liquid substance in which chemical reactions occur, contains enzymes and organelle are found in it

Question 11

What is the function of the cell membrane?

Answer 11

controls what enters and leaves the cell

Question 12

What is the function of the mitochondria?

Answer 12

Where aerobic respiration reactions occur and providing energy for the cell

Question 13

What is the function of the ribosomes?

Answer 13

Where protein synthesis occurs

Question 14

What is the function of chloroplasts?

Answer 14

where photosynthesis takes place (providing food for the plant)

Question 15

What is the function of the permanent vacuole?

Answer 15

Contains cell sap, found within the cytoplasm, improves cell’s rigidity

Question 16

What is the function of the cell wall?

Answer 16

Made from cellulose fibres and strengthens the cell and supports the cell

Question 17

What is the function of the capsule?

Answer 17

Prevents drying, helps organism evade immune system

Question 18

What is the function of the plasma membrane?

Answer 18

To protect the cell from harmful stuff and to let in stuff it needs.

Question 19

What is the function of the plasmid?

Answer 19

A small ring of DNA

Question 20

What is the function of the pili?

Answer 20

Attachment

Question 21

What is the function of the singular circular strand of DNA?

Answer 21

As bacteria cells have no nucleus, this floats in the cytoplasm

Question 22

What is cell specialization?

Answer 22

Cells throughout an organism can develop in different ways to perform different tasks

Question 23

What are stem cells?

Answer 23

unspecialized cells from which differentiated cells develop

Question 24

What are stem cells used for?

Answer 24

Growth and repair

Question 25

What are sperm cells specialised for?

Answer 25

Specialised to carry the males DNA to the egg cell (ovum) for successful reproduction

Question 26

How are sperm cells in animals adapted to their function?

Answer 26

Haploid nucleus - contains genetic information
Tail - enables movement
Mitochondria - provides energy for tail movement
Acrosome - contains enzymes that digest the egg cell membrane

Question 27

What are the features of sperm cells?

Answer 27

• male gametes
• tale and lots of mitochondria to supply energy to swim
• acrosome on head to digest layers of ovum allowing it to penetrate leading to fertilisation

Question 28

What are nerve cells specialised for?

Answer 28

Specialised to transmit electrical signals quickly from one place in the body to another

Question 29

How are nerve cells in animals are adapted to their function?

Answer 29

Long axon - allows electrical impulses to be transmitted all over the body from the central nervous system
Dendrites - from the cell body connect to and receive impulses from other nerve cell, muscles and glands

Question 30

What are the features of nerve cells?

Answer 30

Long, has branches and has insulation

Question 31

What are root hair cells specialised for?

Answer 31

Absorbing water by osmosis and mineral ions by active transport

Question 32

How are root cells in plants are adapted to their function?

Answer 32

Large surface area - to absorb nutrients and water from surrounding soil
Thin walls - that don’t restrict water absorption

Question 33

What are the features of a root hair cells?

Answer 33

• Large surface area for water to enter by osmosis
• Cellulose cell wall is freely permeable to water
• Large numbers of mitochondria to provide atp for active transport of mineral ions
• Large numbers of protein carriers embedded in membrane for active transport of mineral ions

Question 34

What are xylem cells specialised for?

Answer 34

Specialised to transport water and mineral ions up the plants from the roots to the shoots

Question 35

How are xylem cells in plants adapted to their function?

Answer 35

No upper or lower margins between cells - to provide a continuous route for water to flow.
Thick, woody side walls - strengthen their structure and prevent collapse.

Question 36

What are the features of a xylem cells?

Answer 36

• transports water and minerals the roots up the plant stem and into the leaves
• consists of dead cells

Question 37

What are phloem cells specialised for?

Answer 37

Specialised to carry the products of photosynthesis (food) to all parts of the plant

Question 38

How are phloem cells in plants adapted to their function?

Answer 38

Sieve plates - let dissolved amino acids and sugars be transported up and down the stem.
Companion cells - provide energy needed for active transport of substances along the phloem.

Question 39

What is cell differentiation?

Answer 39

The process in which cells become specialized.

Question 40

Why is cell differentiation important?

Answer 40

Allows production of different tissues and organs that perform various vital functions in the human body.

Question 41

What time do animal cells differentiate?

Answer 41

At an early stage and then lose this ability

Question 42

For how long do plant cell retain the ability to differentiate?

Answer 42

Throughout their entire life cycle

Question 43

What is the purpose of cell division in mature animals?

Answer 43

Repair and replacement of cells

Question 44

What changes does a cell go through as it differentiate?

Answer 44

Becomes specialised through acquisition of different sub-cellular structure to enable a specific function to be performed by the cell

Question 45

What is magnification?

Answer 45

The number of times bigger an image appears compared to the size of the real object

Question 46

What is resolution?

Answer 46

The smallest distance between two object can be distinguished

Question 47

How does a light microscope work?

Answer 47

Passes a beam of light through a specimen which travels through the eyepiece lens, allowing the specimen to be observed

Question 48

What are the advantages of light microscopes?

Answer 48

Inexpensive, easy to use, portable, observe both dead and living specimens

Question 49

What are the disadvantage of light microscopes?

Answer 49

Limited resolution

Question 50

How does an electron microscope work?

Answer 50

It uses a beam of electrons which are focused using magnets, the electrons hit a fluorescent screen which emits visible light and producing an image.

Question 51

What are the two types of electron microscopes?

Answer 51

transmission electron microscope (TEM) and scanning electron microscope (SEM)

Question 52

What are the advantages of electron microscopes?

Answer 52

Greater magnification and resolution

Question 53

Why do electron microscope have a great magnification and resolution?

Answer 53

They use a beam of electrons which has a shorter wavelength than photons of light

Question 54

How have electron microscopes enabled scientists to develop their understanding of cells?

Answer 54

Allow small sub-cellular structures to be observed in detail and enable scientists to develop more accurate explanations about how cell structure relates to function.

Question 55

What are the disadvantages of electron microscopes?

Answer 55

Expensive, large so less portable, require training to use and only dead specimens can be observed

Question 56

How came magnification be calculated?

Answer 56

Magnification = size of image / size of real object

Question 57

What are the pieces of laboratory equipment you could have used to prepare cells to view using a microscope?

Answer 57

Slide, coverslip, dye/stain, pipette/dropper, scalpel and forceps/tweezers

Question 58

How do bacteria multiply?

Answer 58

Binary fission (simple cell division)

Question 59

How often do bacteria multiply?

Answer 59

Once every 20 minutes if enough nutrients are available and the temperature is suitable.

Question 60

What are the ways that bacteria can grow?

Answer 60

Nutrient broth solution and colonies on an agar gel plate

Question 61

What nutrients make up a nutrient broth solution?

Answer 61

All nutrients required for bacteria to grow including nitrogen for protein synthesis, carbohydrates for energy and other minerals.

Question 62

What are uncontaminated cultures of microorganisms needed for?

Answer 62

Investigating disinfectant and antibiotic action.

Question 63

Describe the preparation of an uncontaminated culture using aseptic technique

Answer 63

1. Use pre-sterilised plastic Petri dishes or sterilise glass Petri dishes and agar gel before using with an autoclave.
2. Pour the sterile agar gel into the Petri dish and allow time to set.
3. Sterilise the inoculating loop by passing it through a Bunsen burner flame.
4. Dip the inoculating loop into the solution of microorganisms and make streaks with the loop on the surface of the agar.
5. Put the lid on the Petri dish and secure it with tape. Label accordingly then turn and store upside down.
6. Incubate the culture at 25oC in school laboratories.

Question 64

Why must Petri dishes and culture media before sterilised before use?

Answer 64

To kill any bacteria already present.

Question 65

Why must inoculating loops be sterilised by passing them through a Bunsen burner flame?

Answer 65

To kill any bacteria present on the inoculating loop.

Question 66

Why must the Petri dish lid be secured with tape and the whole dish stored upside down?

Answer 66

Stops bacteria in the air contaminating the culture.
The lid is not fully sealed to prevent the growth of anaerobic bacteria in a lack of oxygen.
Upside down to prevent condensation from forming and dripping down onto the colonies

Question 67

Why are cultures incubated at 25C in school laboratories?

Answer 67

Harmful pathogens are less likely to grow at this temperature

Question 68

What is the formula used to calculate cross-sectional area of a bacterial colony or clear area around a bacteria colony?

Answer 68

Pi x radius^2

Question 69

How is the number of bacteria in a population after a certain time calculated from the mean division time?

Answer 69

1. Calculate the number of times the bacteria will divide in the given time period from the mean division time.
2. Use the following equation to calculate the number of bacteria:
   Number of bacteria in population at end of time period = number of bacteria at the beginning of the time period x 2number of divisions in the time period .
   Express the answer in standard form if possible.

Question 70

What are chromosomes made of?

Answer 70

DNA and proteins

Question 71

What is gene?

Answer 71

A section of DNA which codes for a protein

Question 72

How many chromosomes are found in the nucleus of human body cells?

Answer 72

46 chromosomes

Question 73

How many chromosomes are found in the nucleus of gametes?

Answer 73

23 chromosomes

Question 74

How are chromosomes arranged in the nucleus of a body cell?

Answer 74

Arranged in pairs - 46 chromosomes form 23 pairs.

Question 75

What are the three main stages of the cell cycle?

Answer 75

1. Replication of DNA and synthesis of organelles
2. Mitosis
3. Division of cell

Question 76

Why is mitosis important?

Answer 76

Produces identical cells which all have the same genetic information and produces additional cells for growth and repair.

Question 77

Describe the first stage of the cell cycle

Answer 77

Longest stage - cells grow and increase in mass, replicate DNA and synthesise more organelles (eg. mitochondria, ribosomes).

Question 78

Describe the second second stage of the cell cycle

Answer 78

Each chromosomes in a pair is pulled to opposite poles of the cell then then nucleus divides

Question 79

Describe the third stage of the cell cycle

Answer 79

The cytoplasm and cell membrane divide - two identical daughter cells are produced.

Question 80

What is the function of stem cells in embryos?

Answer 80

Embryonic stem cells can replicate themselves and differentiate into many other types of cell and embryonic stem cells may be able to treat conditions such as paralysis and diabetes by dividing to replace damaged cells.

Question 81

What is the function of stem cells in adult bone marrow?

Answer 81

Adult stem cells can differentiate into several cell types to replace dead or damaged tissues (for example, bone marrow stem cells can form many different types of blood cell)

Question 82

What is the function of stem cells in plant meristems?

Answer 82

Meristem stem cells retain the ability to differentiate into any type of plant cell throughout their lifespan - they can differentiate into any cell which is required by the plant.

Question 83

What is therapeutic cloning?

Answer 83

A cloning method where an embryo is produced with the same genetic makeup as the patient. The stem cells which originate from the embryo will not be rejected by the patient’s immune system, so can be used to treat certain medical conditions.

Question 84

What are the advantages of cloning plants using meristem stem cells?

Answer 84

● Can prevent rare plants from becoming extinct.
● Can produce large numbers of plants with a favourable characteristic.
● Can produce identical plants for research.

Question 85

What are issues are associated with the use of embryonic stem cells?

Answer 85

● Many embryonic stem cells are sourced from aborted embryos - some people have an ethical/religious objection.
● Development of stem cell therapies is slow, expensive and difficult.
● Adult stem cells infected with viruses could transfer infections to patients.
● If donor stem cells do not have a similar genetic makeup to the patient, an immune response could be triggered.

Question 86

What is diffusion?

Answer 86

the net movement of particles from an area of high concentration to an area of low concentration

Question 87

What three main factors affect the rate of diffusion?

Answer 87

● Concentration gradient - larger gradient, faster diffusion.
● Temperature - higher temperature, faster diffusion.
● Surface area - larger surface area, faster diffusion

Question 88

How are single-celled organisms adapted for diffusion?

Answer 88

They have a large surface area to volume ratio - maximises the rate of diffusion of molecules to meet the organism’s needs.

Question 89

How is surface area to volume calculated?

Answer 89

Surface Area = Number of Sides x (Side Length x Side Width)
Volume = Length x Width x Depth
Ratio = Surface Area:Volume

Question 90

What four factors increase the effectiveness of a gas exchange surface?

Answer 90

● Large surface area
● Thin membrane (short diffusion path)
● Efficient blood supply (animals)
● Ventilation (animals)

Question 91

What is osmosis?

Answer 91

The movement of water from a dilute solution to a concentration solution through a partially permeable membrane

Question 92

What is meant when a solution is isotonic to a cell?

Answer 92

The concentrations of the external and internal (inside cell) solutions are the same.

Question 93

What is meant when a solution is hypertonic to a cell?

Answer 93

The concentration of the external solution is higher than that of the internal solution (inside cell).

Question 94

What is meant when a solution is hypotonic to a cell?

Answer 94

The concentration of the external solution is lower than that of internal solution (inside cell).

Question 95

What may happen when an animal cell is placed in a hypotonic solution?

Answer 95

Water moves into the cell, causing it to burst.

Question 96

How do plant leaves and stems remain rigid?

Answer 96

Turgor pressure - water moves in by osmosis, causing the vacuole to swell and the cytoplasm to press against the cell wall.

Question 97

What may happen when a plant cell is placed in a very hypotonic solution?

Answer 97

Water moves out of the cell by osmosis and the vacuole and cytoplasm decrease in dice then the cell membrane may pull away from the cell wall, causing the cell to become plasmolysed

Question 98

What is active transport?

Answer 98

The movement of molecules from a more dilute solution to a more concentration solution against a concentration gradient, using energy from respiration

Question 99

How do plant root hair cells use active transport?

Answer 99

Root hair cells use active transport to take up mineral ions from a more dilute solution in soils. Ions such as magnesium and nitrates are required for healthy growth.

Question 100

How is active transport used to absorb the products of digestion?

Answer 100

Active transport is used to transport glucose from a lower concentration in the gut to a higher concentration in the blood. Glucose is then transported to the tissues where it can be used in respiration.

Question 101

How do you test for starch?

Answer 101

Add a drop of dilute iodine solution to the subject. If starch is present it will turn a ‘blue-black’ colour.

Question 102

How do you test for sugar?

Answer 102

Put your food sample in a test tube and add some Benedict solution (which is blue) then heat it if it goes yellow/orange then sugar is present

Question 103

How do you test for fat?

Answer 103

Add the food sample to a test tube with some ethanol and water in it, then shake it up with your thumb over the top. If the solution goes milky white, fat is present

Question 104

How do you test for proteins?

Answer 104

Add Biuret A and Biuret B (sodium hydroxide and copper sulphate) in equal amounts;
If the solution turns purple, it is a positive test and protein is present; otherwise, remains pale blue

Question 105

How do you test for lipids?

Answer 105

shake the test substance with ethanol for a minute and pour solution into water any lipid produces will show a milky emulsion
- the more lipids the more notisable milky colour

Question 106

What is a red blood cell?

Answer 106

Type of blood cell that is made in the bone marrow and found in the blood

Question 107

What is the red blood cells function?

Answer 107

transport oxygen from lungs to body cells

Question 108

What is the structure of a red blood cell?

Answer 108

small, flexible, biconcaved disc

Question 109

What is a white blood cell?

Answer 109

A cell that destroys disease-causing germs

Question 110

What is the white blood cells function?

Answer 110

fight infection/disease

Question 111

What is the structure of a white blood cell?

Answer 111

Large cell containing a big nucleus, different types have slightly different structures and functions

Question 112

Why does red cell bursts in a beaker of water?

Answer 112

Water enters in the cell by osmosis and the cell starts to swell

Question 113

Why does plant cell doesn’t burst in a beaker of water?

Answer 113

Plants cell has a cell wall (which prevents it from bursting)

Question 114

What is binary fission?

Answer 114

How bacteria asexually reproduce

Question 115

What are colonies?

Answer 115

A visible mass of many bacteria

Question 116

What are nutrient broth solution?

Answer 116

A liquid food culture media to grow bacteria

Question 117

What are agar gel plates?

Answer 117

A solid food culture media to grow bacteria

Question 118

What is an aseptic technique?

Answer 118

A way of preventing contamination when growing bacteria

Question 119

What is inoculating loop?

Answer 119

A sterile looped piece of wire which can transfer bacteria between culture media

Question 120

What is an incubator?

Answer 120

A machine with a set temperature to grow bacteria

Question 121

What is contamination?

Answer 121

When unwanted bacteria or other microorganisms grow in the culture media

Question 122

What is culture media?

Answer 122

A liquid or solid food source to grow bacterial cultures in

Question 123

What is an antiseptic?

Answer 123

A substance which kills bacteria and other microorganisms

Question 124

What is an antibiotic?

Answer 124

A medication which is used to kill specific bacteria

Question 125

What is sterilisation?

Answer 125

method of removing microorganisms from surfaces usually by means of chemicals or heat

Question 126

What are disinfectants?

Answer 126

A substance which prevents the growth of bacteria and other microorganisms

Question 127

What is a zone of inhibition?

Answer 127

An area of media where bacteria cannot grow that shows the effectiveness of a disinfectant or antibiotic

Question 128

What is a muscle cell?

Answer 128

An animal cell that contains sliding protein fibres to contract and allow movement

Question 129

What is a nerve cell?

Answer 129

An extended animal cell with many branches that sends electrical messages around the body

Question 130

What is an intestinal epithelial cell?

Answer 130

An animal cell that is responsible for molecule absorption in the intestines, these cells have many tiny folds called microvilli that increase the surface area for absorption

Question 131

What is a root hair cell?

Answer 131

A plant cell which has a large surface area and thin walls to absorb water and minerals

Question 132

What is a xylem cell?

Answer 132

A hollow plant cell with thick walls containing lignin to transport water and minerals through the plant

Question 133

What is a phloem cell?

Answer 133

A living plant cell with sieve plate pores to transport dissolved sugars throughout the plant

Question 134

What is an undifferentiated cell?

Answer 134

A cell that has not yet acquired a special structure or function, such as a stem cell

Question 135

What is the cell division of undifferentiated cells?

Answer 135

Occurs in developing organisms or embryos prior to cell specialisation

Question 136

What is the function of an axon?

Answer 136

The longest part of a nerve cell which carries the electrical impulse

Question 137

What is the function of a dendrite?

Answer 137

The parts of the nerve cell which makes connections

Question 138

What is the function of a myelin sheath?

Answer 138

The fatty insulation of a nerve axon

Question 139

What is the function of an acrosome?

Answer 139

Part of the head of a sperm cell that contains digestive enzymes to penetrate the egg cell

Question 140

What is the function of a lignin?

Answer 140

A chemical that provides support to xylem cells and prevents the unwanted movement of water into nearby cells

Question 141

What is a DNA loop?

Answer 141

A single molecule of DNA that is found free in the cytoplasm of prokaryotes

Question 142

What is a human embryo?

Answer 142

A source of stem cells which can become any type of cell

Question 143

What is a bone marrow?

Answer 143

A source of stem cells which can become many types of cell including blood cells

Question 144

What is an meristem?

Answer 144

The region in plant shoots and roots where mitosis occurs and a source of stem cells in plant tissue

Question 145

What is diabetes?

Answer 145

A disease of the pancreas which may be treated with stem cells

Question 146

What is a spinal cord injury?

Answer 146

A cause of paralysis which may be treated with stem cells

Question 147

What are the potential risks of stem cell treatment?

Answer 147

Viral infection, cancer and rejection unless therapeutic cloning is used

Question 148

What is a zygote?

Answer 148

A fertilised egg cell which divides to form an embryo

Question 149

What are ethical objections?

Answer 149

Moral reasons people may be against stem cell treatments

Question 150

What are religious objections?

Answer 150

Religious reasons people may be against stem cell treatments

Question 151

What are advantages of bone marrow stem cells?

Answer 151

Can treat many blood-linked or immune-linked diseases, less ethical concerns than embryonic stem cells, bone marrow is easier to obtain than embryonic cells

Question 152

What are the advantages of embryonic stem cells?

Answer 152

No consent required, obtainable via embryos discarded in IVF, can be used to make any type of cell, less risk of rejection if used via therapeutic cloning

Question 153

What are the disadvantages of bone marrow stem cells?

Answer 153

Requires voluntary donors, bone marrow extraction can cause pain to an individual and requires consent, may have a risk of infection, can only form cells such as blood cells, risk of rejection

Question 154

What are the disadvantages of embryonic stem cells?

Answer 154

Ethical considerations such as potential loss of life or harm to embryo, less easily obtainable than bone marrow stem cells, risk of rejection

Question 155

What is mitosis?

Answer 155

A type of cell division where two identical daughter cells are formed with the same genetic material as the parent cell

Question 156

What is the process of mitosis?

Answer 156

One set of chromosomes is pulled to each end of the cell, the nucleus then divides, the cytoplasm and cell membranes eventually divide, two identical cells are formed

Question 157

What are daughter cells?

Answer 157

The new cells formed as a result of the division of a cell

Question 158

What is mineral ions?

Answer 158

Charged particles needed for healthy plant growth

Question 159

What is cell respiration?

Answer 159

The release of energy from molecules

Question 160

What is the cells lining the gut?

Answer 160

Animal cells which use active transport to absorb sugar molecules

Question 161

What is the active process?

Answer 161

A process that requires energy

Question 162

What is the passive process?

Answer 162

A process such as diffusion or osmosis that does not require energy

Question 163

What are dilute mineral ions?

Answer 163

The mineral ion concentration found in the soil

Question 164

What are concentration mineral ions?

Answer 164

The mineral ion concentration found in plant tissues

Question 165

What is the dilute solution?

Answer 165

A solution that contains a relatively small amount of dissolved solute

Question 166

What is the concentration solution?

Answer 166

A solution that contains a relatively large amount of dissolved solute

Question 167

What is a partially permeable membrane?

Answer 167

A membrane which allows some substances through but not others

Question 168

What is turgidity?

Answer 168

When a plant cell is swollen due to the movement of water into the cell

Question 169

What is flaccid?

Answer 169

When water moves out of the plant cell causing the cell to change shape and the vacuole to shrink

Question 170

What is plasmolysed?

Answer 170

When water has completely moved out of plant tissue by osmosis and the vacuoles are empty

Question 171

What is molarity?

Answer 171

The amount of substance in a certain volume of solution

Question 172

What is a cork borer?

Answer 172

A device used to make plant tissue cylinders of the same diameter

Question 173

What is isotonic solution?

Answer 173

Where the solute concentration is equal inside and outside of the cell

Question 174

What do animals cells do in hypertonic and hypotonic solutions?

Answer 174

Animal cells will increase in size and burst in hypotonic solutions, animal cells will decrease in size and shrivel in hypertonic solutions

Question 175

What do plant cells do in hypertonic and hypotonic solutions?

Answer 175

Plant cells will increase in size and become turgid in hypotonic solutions, plant cells will decrease in size and become plasmolysed in hypertonic solutions

Question 176

What is gas exchange?

Answer 176

When oxygen and carbon dioxide move in and out of cells by diffusion

Question 177

What is the purpose of gas exchange?

Answer 177

Organisms need oxygen for aerobic respiration, they also need to remove carbon dioxide which is a waste product in some organisms

Question 178

What are the sites of gas exchange?

Answer 178

The alveoli of the lungs and respiring cells around the body

Question 179

What has an effect of exchange surfaces?

Answer 179

Has a large surface area, a good blood supply, is well ventilated for gas exchange and has a thin membrane for diffusion

Question 180

What structure are adapted for exchanging materials?

Answer 180

Small intestine, kidneys, lungs, gills in fish, roots and leaves in plants all have adaptations such as thin membranes and increased surface area

Question 181

What is the transport system?

Answer 181

A system that is used for transporting substances around a multicellular living organism

Question 182

What is an urea?

Answer 182

A waste product that is filtered and removed from the blood plasma via diffusion in the kidneys

Question 183

What happen in gas exchange in plants?

Answer 183

Carbon dioxide diffuses into the plant in exchange for oxygen that diffuses out of the plant, this process is regulated by guard cells in the leaves that can open and close the stomata efficiently

Question 184

What are lungs specialised for?

Answer 184

Are specialised in gas exchange due to the presence of many tiny sacs called alveoli that are adapted for diffusion due to being moist, one cell thick and surrounded by capillaries