1.3 Transport in cells

Question 1

1.3.1 Diffusion

What is diffusion

Answer 1

Diffusion is the movement of particles from an area of higher concentration to an area of lower concentration.

Question 2

1.3.1 Diffusion

Examples of where diffusion occurs in the body

Answer 2

• oxygen and carbon dioxide in gas exchange
• urea (waste product) diffused out of kidney

Question 3

1.3.1 Diffusion

Explain how different factors affect the rate of diffusion.

Answer 3

• Difference in concentration: the greater the difference, the faster the rate of diffusion (steeper)
• temperature: the higher the temperature, the more kinetic energy, moves faster = quicker diffusion rate
• surface area of membrane: greater SA = greater diffusion rate; more entry/exit points for particles to cross

Question 4

1.3.1 Diffusion

Surface area:Volume

calculation

Answer 4

Surface area: 6(l x w)
Volume: l x w x d
6(l x w) : l x w x d

Question 5

1.3.1 Diffusion

Adaptations in small intestines

Answer 5

• internal surface have millions of villi
• villi increase the surface area
• villi have a very rich blood supply
• maintains the concentration gradient
• membranes of villi are very thin to allow for short diffusion distance

Question 6

1.3.1 Diffusion

Adaptations of the lungs

Answer 6

• contains alveoli
• increases surface area
• very good/rich blood supply
• maintains concentration gradient
• membranes of alveoli are very thin, to allow for short diffusion distance

Question 7

1.3.1 Diffusion

Adaptations of gilld in fish

Answer 7

• each gill has thin plates called gill filaments, water with low oxygen flows over them
• increases surface area
• covered with lamella: increases the surface area more
• lamella: have a very good blood supply
• maintains the concentration gradient as water flows in the opposite direction
• membranes of the lamellae are very thin, to allow for short diffusion distance

Question 8

1.3.1 Diffusion

Adaptations of the roots

Answer 8

• root surface is covered in millions of root hair cells
• increases the surface area
• present on the mature parts of the roots
• absorbs water and minerals from the soil

Question 9

1.3.1 Diffusion

Adaptations of the leave

Answer 9

• large SA to absorb more light
• thin, short distance for carbon dioxide to diffuse into leaf cells
• chlorophyll absorbs sunlight for photosynthesis
• xylem and phloem to support the leaf and transport water and glucose
• stomata at the bottom to allow gases to diffuse in and out of leaf

Question 10

1.3.2 Osmosis

What is osmosis

Answer 10

The movement of water from a dilte solution to a concentrated solution through a partially permeable membrane

low to high conc

Question 11

1.3.2 Osmosis

Factors that affect osmosis

Answer 11

• Difference in concentration: the greater the difference, the faster the rate of diffusion (steeper)
• temperature: the higher the temperature, the more kinetic energy, moves faster = quicker diffusion rate

Question 12

1.3.2 Osmosis

Key words in osmosis

Answer 12

Hypertonic: more concentrated solution, than in cells. Cell loses water, shrinks
Isotonic: same concentration of solution, as the cell solution. no change to the cell
Hypotonic: more dilute solution, than in cells. cell absorbs water, expands.

Hypertonic: exits
Hypotonic: absorbs

Question 13

1.3.3 Active transport

What is active transport

Answer 13

Active transport moves substances from a more dilute solution to a more concentrated solution (against a concentration gradient)

Requires energy from respiration

Question 14

1.3.3 Active transport

Example of active transport in plants

Answer 14

Active transport allows mineral ions to be absorbed into plant root hairs from very dilute solutions in the soil. Plants require ions for healthy growth.

Question 15

1.3.3 Active transport

Example of active transport in animals

Answer 15

It also allows sugar molecules to be absorbed from lower concentrations in the gut into the blood which has a higher sugar concentration.
Sugar molecules are used for cell respiration.