Paper 1: Topic 1 Cell Biology - Transport in cells (IV form)

Question 1

Give 3 examples of molecules that diffuse

Answer 1

Some of the substances transported in and out of cells by diffusion are:

oxygen and carbon dioxide in gas exchange

urea from cells into the blood plasma for excretion in the kidney

Question 2

How are the lungs in mammals adapted for exchanging materials?

Answer 2

Alveoli increase the surface area

The alveoli wall is only one cell thick (reduces the diffusion distance)

The lining of the alveoli is moist (to increase the diffusion of oxygen and carbon dioxide across the membrane)

Alveoli are covered in capillaries to ensure gases diffuse in and out of the blood efficiently

Question 3

Why do plants need a supply of potassium ions?

Answer 3

To produce some enzymes and fruits

Question 4

What is a hypotonic solution?

Answer 4

A solution with a lower concentration of solutes dissolved in it

Hence it has a higher water potential

Question 5

Define the term osmosis

Answer 5

The movement (diffusion) of water molecules DOWN a WATER POTENTIAL GRADIENT across a partially permeable membrane from an area of higher** water potential to an area of low_er_** water potential

Question 6

Why can single-celled organisms obtain their nutrients and remove their wastes by diffusion?

Answer 6

They have a relatively large surface area to volume ratio.

This allows sufficient transport of molecules into and out of the cell to meet the needs of the organism

Question 7

What happens to plant cells that are placed into a concentrated solution?

Answer 7

Water moves out of the cell

Down the water potential gradient

By osmosis

The cell decreases in size and mass as it loses water

The vacuole shrinks

The cell will eventually become plasmolysed

Question 8

What happens to plant cells that are placed into a dilute solution?

Answer 8

Water moves into the cell

Down the water potential gradient

By osmosis

The cell increases in size and mass as it gains water

The vacuole enlarges as water enters the vacuole

The cell will eventually become turgid

Question 9

Give an example of active transport in plants

Answer 9

The absorption of mineral ions from the soil by root hair cells

Mineral ions are in a very dilute solution in the soil and are moved into the concentrated solution of the cell vacuole

Question 10

What happens to red blood cells (or other animal cells) that are placed into pure water or a dilute solution?

Answer 10

Water moves into the cell

Down the water potential gradient

By osmosis

The cell increases in size and mass as it gains water

The cell will eventually rupture (burst)

They are described as being cytolysed (or if they are a red blood cell they are described as being haemolysed)

Question 11

What is meant by the term ‘haemolysis’

Answer 11

The rupturing of an animal cell as a result of water moving into the cell by osmosis

Question 12

How are leaves in plants adapted for exchanging materials?

Answer 12

Leaves are broad, and thin flat (to increase the surface area)

Leaves are have many stomata on the underside of the leaf (to allow gas exchange to occur by diffusion)

Question 13

How do you calculate the volume of a cube?

Answer 13

volume = height x width x depth

remember to include the units e.g mm³ or cm³

Question 14

Is active transport an active or passive process? Explain your answer.

Answer 14

Active

It requires an input of ATP which is produced during respiration

ATP is needed to change the shape of the carrier protein to move the molecule against the concentration gradient

Question 15

Give 2 ways in which diffusion and osmosis are different

Answer 15

1. Diffusion applies to gases and small molecules, osmosis ONLY applies to water molecules
2. Diffusion uses a concentration gradient, osmosis uses a water potential gradient
3. Diffusion occurs until the moelcules are in equilibrium, osmosis occurs until the water potentials are equal

Question 16

Give 3 ways diffusion and osmosis are different from active transport

Answer 16

Diffusion and osmosis are passive processes, active transport is an active process

Diffusion and osmosis move molecules down a gradient, active transport moves molecules against a gradient

Diffusion and osmosis only use kinetic energy, active transport requires an input of energy (ATP)

Diffusion and osmosis do not require protein carriers in the membrane, active transport does

Question 17

What happens to red blood cells (or other animal cells) that are placed into pure water or a dilute solution?

Answer 17

Water moves into the cell

Down the water potential gradient

By osmosis

The cytoplasm increases in volume and mass as it gains water

The cytoplasm will push against the cell surface membrane

The cell ruptures and becomes haemolysed

Question 18

Give 3 examples of molecules that can diffuse across cell membranes

Answer 18

Carbon dioxide

Oxygen

Carbon monoxide

Urea

Question 19

How are gills in fish adapted for exchanging materials?

Answer 19

Gills have many gill filaments (to increase the surface area)

Gills are thin (to reduce the diffusion distance)

Gills have a good blood supply i.e. many blood vessels in them (to maintain a high concentration gradient)

Water continually runs over the surface of the gills (to maintain a high concentration gradient)

Question 20

Give 4 ways in which the effectiveness of an exchange surface can be increased

Answer 20

1. having a large surface area
2. having a membrane that is thin,
3. having a short diffusion path
4. animals have an good (‘rich’) blood supply
5. ventilating their gas exchange surfaces

Question 21

What is the name of the apparatus that can be used to study osmosis?

Answer 21

Osmometer

Question 22

Is osmosis an active or passive process?

Answer 22

Passive - it does not require any energy input

Water molecules possess kinetic energy and this enables them to move

Question 23

Why do plants need a supply of magnesium ions?

Answer 23

To produce chlorophyll (the green pigment that is essential for photosynthesis)

Question 24

Give 2 examples of molecules that are absorbed into the blood plasma by active transport

Answer 24

Glucose

Amino acids

Small proteins

Question 25

Describe the pattern of movement of molecules that are diffusing

Answer 25

Random

Question 26

How do you calculate the surface area of a cube?

Answer 26

Remember a cube has 6 faces!

The surface area of each face = height x width

If all faces are the same then multiply this by 6

If the faces differ in sizes i.e. it is an oblong rather than a cube 2 faces will have one surface area and 4 faces will have a different surface area

Remember to add units: e.g. mm² or cm²

Question 27

What is meant by the term ‘crenated’

Answer 27

The shriveling of an animal cell as a result of water moving out of the cell by osmosis

Question 28

Define the term diffusion

Answer 28

The movement of molecules from an area of high concentration to an area of low concentration down a concentration gradient across a partially permeable membrane i.e. from a concentrated to dilute solution. Diffusion usually occurs until an equilibrium is reached.

Question 29

Give an example of active transport in animals

Answer 29

The absorption of glucose from the small intestine into the blood plasma

The contents of the small intestine have a low glucose concentration and the blood plasma has a high concentration of glucose

Question 30

Give 3 factors that INCREASE the rate of diffusion

Answer 30

LARGER difference in concentrations (STEEPER concentration gradient)

HIGHER temperature

INCREASED surface area of the membrane

DECREASED the diffusion distance

Question 31

Define a solution

Answer 31

A liquid (solvent) in which solids (solutes) are dissolved

Question 32

Why can’t multi-cellular organisms use diffusion to obtain their nutrients and remove their wastes?

Answer 32

They have low surface area to volume ratios

The speed of diffusion is too slow to meet their nutrient demand - hence they develop a specialised circulatory system

Question 33

What is a hypertonic solution?

Answer 33

A solution with a higher concentration of solutes dissolved in it

Hence it has a lower water potential

Prefix ‘hyper’ means high (so high concentration of SOLUTE)

Question 34

Which solution has a higher water potential: a dilute solution or a concentrated solution

Answer 34

A dilute solution

As more solute is dissolved in the solvent the water potential of the solution is decreased

Question 35

How is the small intestine in mammals adapted for exchanging materials?

Answer 35

Walls of the small intestine form folds called villi (to increase the surface area)

Each villus is covered by specialised cells which have microvilli (to increase the surface area even more)

The villus has many capillaries to provide a good blood supply (to maintain a high concentration gradient)

The wall of the villus is thin as it is only one cell thick (to reduce the diffusion distance)

Within each villus are many lacteals (for the absorption of fatty acids and glycerol)

Question 36

Why do plants need a supply of nitrate ions?

Answer 36

To produce AMINO ACIDS - which the plant uses to make proteins so it can grow

To produce NUCLEOTIDES - which the plant uses to make DNA to make new cells required for growthh

Question 37

Give 3 ways in which diffusion and osmosis are similar

Answer 37

Both rely on kinetic energy

Both are passive processes

Both move molecules down a gradient

Both move molecules across a partially permeable membrane

Question 38

Give 3 mineral ions that are required by plants

Answer 38

Nitrate ions

Magnesium ions

Potassium ions

Question 39

How is the surface area to volume ratio (SA:volume) related to the size of an organism?

Answer 39

Large animals have a small SA:volume

Small animals have a large SA:volume

Single -celled organisms have a very large SA:volume

Question 40

What solution has the highest water potential?

Answer 40

Pure water (as it has no solutes in it)

Question 41

What happens to red blood cells (or other animal cells) that are placed into a concentrated solution?

Answer 41

Water moves out of the cell

Down the water potential gradient

By osmosis

The cell decreases in size and mass as it loses water

The cell will eventually shrivel and become crenated

Question 42

Define the term ‘active transport’

Answer 42

The movement of molecules against a concentration gradient from an area of low concentration to an area of high concentration i.e. from dilute to concentrated solution.

Active transport uses ATP and specilaised protein carrier molecules that transport the moelcules across the membrane.

Question 43

Is diffusion an active or passive process?

Answer 43

Passive - it does not require any energy input

The molecules that diffuse possess kinetic energy and this causes them to move

Question 44

Define a solute

Answer 44

A solid that can dissolve in a solvent

Question 45

Define a solvent

Answer 45

A liquid in which a solute will dissolve

Question 46

Label the diagram

Answer 46

Question 47

Answer 47

Question 48

Answer 48

Question 49

Answer 49