Diffusion, Osmosis and Active Transport

Question 1

What is diffusion?

Answer 1

Diffusion is the random net movement of particles form as area of high concentration to an area of lower concentration, along the concentration gradient

Question 2

What is osmosis?

Answer 2

The net movement of water molecules from an area of high water potential to an area of lower water potential, through a partially permeable membrane, down the water potential gradient (from dilute to a concentrated solution)

Question 3

What is a partially permeable membrane?

Answer 3

• A selectively permeable membrane is a membrane that allows only certain materials to cross it
• Materials pass through the pores in the membrane (only tiny molecules can pass through these small holes like water and not bigger molecules e.g. sucrose
• A cell membrane is a partially permeable membrane

Question 4

Describe how water moves into and out of cells by osmosis

Answer 4

1. Tissue fluid surround the cells in the body, it is basically just water with oxygen and glucose dissolved in it. It is squeezed out of the blood capillaries to supply the cells with everything they need
2. The tissue fluid will have a different concentration to the fluid inside to cell. This means that the water will either move into the cell from the tissue fluid or out of the cell, by osmosis
3. If a cell is short of water, the solution inside it will become quite concentrated. This usually means the solution outside is more dilute, and so water will move into the cell by osmosis
4. If a cell has lots of water, the solution inside it will be more dilute, and water ill be drawn out of the cell and into the fluid outside by osmosis

Question 5

Describe how plants are supported by turgid cells

Answer 5

1. When a plant is well watered its cells will draw water in by osmosis and become plump and swollen. When the cells are like this, they are said t be turgid
2. The contents of the cell push against the cell wall, this is called turgor pressure. Turgor pressure helps support the plant tissue
3. If there is no water in the soil, a plant starts to wilt. This is because the cells start to lose water and so lose their turgor pressure. The cells are then said to be flaccid
4. The plant does not completely lose its shape though, because the inelastic cell wall keeps things in position. It just droops a bit

Question 6

Where does diffusion happen?

Answer 6

In both liquids and gases, because the particles in these substances are free to move about

Question 7

What affects diffusion?

Answer 7

• The bigger the difference in concentration, the faster the diffusion rate
• Larger SA to volume ratio, diffusion will be quicker
• Temperature

Question 8

What are examples of diffusion?

Answer 8

• CO2 into alveoli
• Oxygen into blood
• Glucose from blood to cells

Question 9

What is special about cell membranes?

Answer 9

Only very small molecules can diffuse through cell membranes, like glucose, amino acids, water and oxygen, big molecules like starch and proteins can’t fit through the membrane

Question 10

How can you investigate diffusion in a non-living system?

Answer 10

1. First make up some agar jelly with phenolphthalein (indicator) and dilute sodium hydroxide, this will make the jelly pink
2. Then fill a beaker will some dilute HCL and using a scalpel, cut out a few cubes from the jelly and put them in the beaker of acid
3. If you leave the cubes for a while they will eventually turn colourless as the acid diffuses into the agar jelly and neutralises the sodium hydroxide
4. You can investigate the rate of diffusion by using different sized cubes of agar jelly and timing how long it takes for each cube to go colourless. The cube with the largest surface area to volume ratio will lose its colour quickest

Question 11

How can you investigate osmosis in a living system?

Answer 11

1. Cut up potatoes into identical cylinders and get some beakers with different sugar solutions in them
2. One should be pure water another should be very concentrated sugar solution and then have a few other with concentrations in between
3. Measure the length of each cylinder, then leave a few cylinders in each beaker for half an hour
4. Then take them out and measure their lengths again
5. If the cylinders have drawn in water by osmosis, they will be a bit longer and if water has been drawn out they have shrunk a bit
6. Keep volume of solution and time experiment run for the same to be a fair test

Question 12

How can you investigate osmosis in a non-living system?

Answer 12

1. Tie a piece of wire around one end of some Visking tubing and put a glass tube in the other end (Visking tubing is a partially permeable membrane), fix the tubing around it with wire
2. Then pour some sugar solution down the glass tube int the Visking tubing
3. Put the Visking tubing into a beaker of pure water, measure where the sugar solution comes up to on the glass tube
4. Leave the tubing overnight, then measure where the liquid is in the glass tube. Water should be drawn into the Visking tubing by osmosis and this will force the liquid up the glass tube

Question 13

In the potato practical how do you work out percentage change?

Answer 13

end mass-initial mass / initial mass x 100

-Important to use percentage change as starting mass for potatoes would not have been the same

Question 14

What are examples of osmosis?

Answer 14

-Plant roots transporting water

Question 15

What is active transport?

Answer 15

The movement of particles against the concentration gradient, from an area of lower concentration to an area of higher concentration using energy released during respiration (ATP)

Question 16

What are examples of active transport?

Answer 16

• In the digestive system when there is a low concentration of nutrients in the gut but a high concentration of nutrients in the blood
• Used in plants, how they get minerals from the soil (lower mineral concentration) into their root hair cells (higher mineral concentration)
• Important in the kidney for hanging on to the substances needed by the body such as glucose and some sodium ions

Question 17

What does active transport do?

Answer 17

• Moves substances into and out of cells

- Cells that carry out a lot of active transport have a lot of mitochondria

Question 18

Describe active transport

Answer 18

1. In active transport a special transport protein in the cell membrane picks up the useful particle on one side of the membrane
2. The transport protein then rotates trough the membrane and releases the particle on the other side of the membrane. This uses energy from cellular respiration

Question 19

What three main factors affect the movement of substances?

Answer 19

1. Surface area to volume ratio: larger surface area to volume ratio, means substance would move into and out of this cube faster
2. Temperature: as substances get warmer they have more energy, so they move faster and so as temperature increases substances move in and out of cells faster
3. Concentration gradient: substances move in and out of cells faster if there is a big difference in concentration between the inside and outside of the cell. If there are lots more particles on one side, there are more to move across, this ONLY increases the rate if DIFFUSION AND OSMOSIS though, concentration gradients DO NOT AFFECT THE RATE OF ACTIVE TRANSPORT