Section A
1. a) Draw a graph of percentage
of burst red blood cells against concentration of salt solution from Table 1.
b)(i) about 0.435 g/100cm3 (read
from graph)
(ii) 0.55 g/100cm3(where
the graph intersects the x- axis) No bursting of red blood cells occurs for
this concentration because it is isotonic to the concentration of RBC.
c)(i) The RBC will
shrink/crinkle.
(ii) At concentration more than
0.55 g/100cm3 , water molecules will diffuse out from the RBC by
osmosis. As a result, RBC will shrink due to loss of water.
2. a)(i) Solution X is hypotonic
to the cell sap of potato cells. Water molecules from solution X move into the
vacuoles of the potato cells by osmosis. The enlarged vacuole will push against
the cytoplasm, causing the cells to inflate. This causes the potato strip to
lengthen.
(ii) Solution Y is isotonic to
the cell sap of potato cells. The rate of movement of water molecules in and
out of the cells is the same. Therefore, there is no change in length of the
strip.
(iii) Solution Z is hypertonic to
the cell sap of potato cells. Water molecules out from the vacuoles of the
potato cells by osmosis. The cells shrinks and plasmolysis takes place.
(b)(i) Hard
(ii) Soft
(c) The use of excessive
fertilizers will increase the osmotic concentration in the soil water, causing
water molecules to move out from the root hairs. The plant will wilt and die.
Section B
3 a) Simple diffusion
Movement of molecules in gas or
liquid from a region of high concentration to a region of lower concentration
without the use of energy.
Facilitated diffusion
Movement of big molecules along a
concentration gradient with the help of protein carriers across the plasma
membrane and also without the use of energy.
Osmosis
Movement of water molecules from
a region of less concentrated solution to a region of more concentrated
solution across a semi-permeable membrane.
Active transport
Movement of particles across the
plasma membrane against the concentration gradient with the help of protein
carriers and the presence of energy from ATP.
b)
Active
transport
|
Osmosis
|
Active transport needs energy
|
Osmosis does not need energy
|
Active transport involves the
movements of molecules or ions against a concentration gradient.
|
Osmosis transport involves the
movements of water molecules along a concentration gradient.
|
Active transport takes places
through the plasma membrane of a living cell.
|
Osmosis takes places through a
semi-permeable membrane.
|
Active transport needs protein
carriers
|
Osmosis does not need protein
carriers
|
4.(a)
Plasma membrane is selectively
permeable. It permits lipid-soluble molecules such as glycerol, vitamins A, D,
E and K to move across. Small, uncharged molecules such as water move freely
across. Large molecules such as glucose and amino acids move across the plasma
membrane with the aid of carrier proteins. Larger molecules such as starch
cannot move across the plasma membrane.
(b)
Plasma membrane consists of
phospholipids bilayer and proteins. Phospholipid molecule consists of a polar
head which is hydrophilic and a pair of non-polar fatty acid tails which is
hydrophobic. Two types of proteins are pore proteins and transport proteins.
Plasma membrane is semi-permeable
which allows certain substances to move in and out freely. Small, uncharged
molecules such as oxygen and carbon dioxide move freely through the
phospholipids bilayer through simple diffusion.
Water molecules which are
attracted to the hydrophilic heads of the phospholipids move across through
osmosis.
Lipid-soluble molecules such as
fatty acids and ethanol dissolve in the lipid bilayer and move across through
simple diffusion.
Large, water-soluble molecules
such as glucose and amino acids require the aid of transport proteins to move
them across the plasma membrane through facilitated diffusion or active
transport.
Ions such as K+ and Na+ are
transported across the plasma membrane through facilitated diffusion or active
transport with the help of transport proteins.
(c)
Vegetables soak in salt solution which
is hypertonic to the cell sap of vegetable cells. Harmful insecticides or
fungicides which had been sprayed on the vegetables earlier diffuse out of the
cells to the salt solution. Water from the cell sap in the vacuole also
diffuses out the salt solution through osmosis. The vegetables become flaccid.
This action cleans the vegetables of harmful insecticides but causes the
vegetables to be flaccid and soft.
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