OBJECTIVE TEST

Plants are different from animals because they

have protoplasm

have chlorophyll

are able to respire

are able to reproduce sexually

Answer: B

How many times is the sun overhead at the equator within a year?

Answer: B

An animal feed made up of high fibre is most likely to contain

maize grain.

silage.

soybean.

wheat grain.

Answer: B

Which of the following life processes is represented by the equation glucose + oxygen → carbon dioxide + water + energy?

Digestion

Excretion

Photosynthesis

Respiration

Answer: D

The property of water that causes mosquito larvae to float on it is

density.

viscosity.

surface tension.

volume.

capillarity.

Answer: C

Surface tension is the force or property of a liquid which makes the surface to behave as if it were a stretched elastic skin or membrane.

Which of the following types of water would be most contaminated by waste substances?

Rain water

Stream water

Borehole water

Pipe borne water

Answer: B

When elements combine to form a compound the

constituents can be separated by a physical process.

volume of the compound is the sum of the volumes of the constituents.

reaction does not involve a heat change.

reaction can be represented by a chemical formula.

Answer: D

Which of the following life processes is represented by the equation below?

Glucose + Oxygen → Water + Carbon dioxide + Energy

Digestion

Excretion

Photosynthesis

Respiration

Answer: D

Respiration Equation

C₆H₁₂O₆ + 6O₂ → 6H₂O + 6CO₂ + ATP (Energy)

Glucose + Oxygen → Water + Carbon dioxide + Energy

The substances which help in the digestion of food materials are called

enzymes.

hormones.

lymph.

mucus.

plasma.

Answer: A

10.

A suitable instrument that could be used to measure the internal diameter of a bamboo flute is

beam balance.

metre fule.

surveyor's tape.

vernier callipers.

Answer: D

11.

Which of the following carry deoxygenated blood in the body?

Arteries

Red blood cells

Valves

Veins

White blood cells

Answer: D

12.

Oil from a mechanic workshop accidentally spilled into a pool of water which was breeding mosquitoes.

After sometime, the pool of water was no longer breeding mosquitoes.

Which control method may have been deployed?

Biological control

Chemical control

Environmental control

Genetic control

Answer: B

13.

The function of the hair in the nose of humans is to

make breathing easier.

keep nose moist.

filter dust from the air breathed in.

keep the nose warm.

Answer: C

14.

Vaccination is carried out to

enable sores to heal faster.

increase the red blood cells of a person.

enable a person's white blood cells to fight against diseases.

kill germs in a person's body.

Answer: C

15.

Fertilized ovules develop into

fruits

cotyledon

plumule

testa

seeds

Answer: E

16.

Crystals of sugar were obtained when a hot solution of sugar was cooled to room temperature. What conclusion can be drawn from this observation?

Sugar does not dissolve in cold water

Sugar does not dissolve in hot water

Sugar dissolves more in hot water than in cold water

Sugar dissolves less in hot water than in cold water

Sugar dissolves more in cold water than in hot water

Answer: C

17.

Which of the following heart conditions in humans is caused by plaque deposits in the arteries?

Atherosclerosis

Heart attack

Heart failure

Stroke

Answer: A

Atherosclerosis is a disease where plaque, made up of cholesterol, fat, and other substances, builds up in the arteries, narrowing them and potentially blocking blood flow. This can lead to serious health issues like heart attacks and strokes.

18.

A force of 2N moves a body through a distance of 10 m. Calculate the work done.

5 J

8 J

12 J

20 J

Answer: D

Work done = Force x Distance moved
Force = 2N
Distance = 10 m
Work done = 2 N x 10 m
Work done = 20 J

19.

The atom of an electron is represented as 1735 Cl. How many electrons are in the atom?

Answer: D

The superscript is called mass number which is made up of protons and neutrons. The subscript is called atomic number which is equal to the number of electrons in a neutral atom.

The atomic number (subscript) is 17, hence there are 17 electrons in the atom.

20.

A solution in which no more solute will dissolve at a particular temperature is said to be

concentrated.

dilute.

saturated.

insoluble.

unsaturated.

Answer: C

Solution is a homogenous mixture of solute and solvent.

The solute is the substance that is being dissolved, while the solvent is the dissolving medium.

A saturated solution can be defined as a solution in which a solvent is not capable of dissolving any more solute at a given temperature.

A dilute solution contains a small amount of solute in a large amount of solvent.

A concentrated solution contains a large amount of solute dissolved in a small amount of solvent.

21.

The property of a rock that makes it different from water is that it has

fixed volume.

fixed shape.

density.

mass

Answer: B

A rock is a solid and water is a liquid. A rock will therefore have the properties of solid.

Matter

Matter is anything that takes up space and can be weighed. In other words, matter has volume and mass.

States of matter and their properties

Solids – relatively rigid, definite volume and shape. In a solid, the atoms and molecules are attached to each other. They vibrate in place but don’t move around.

Liquids – definite volume but able to change shape by flowing. In a liquid, the atoms and molecules are loosely bonded. They move around but stay close together.

Gases – no definite volume or shape. The atoms and molecules move freely and spread apart from one another.

Plasma is sometimes referred to as a fourth state of matter. While it’s similar to a gas the electrons are free in a cloud rather than attached to individual atoms.

22.

Which of the following factors promote plant germination?

I. Adequate temperature
II. Moisture
III. Good soil

I and II only

I and III only

II and III only

I, II and III

Answer: D

23.

Most machines waste energy because of

old age

force

friction

load

too much effort

Answer: C

24.

Which of the following insects is an agent of pollination?

Mosquito

Housefly

Bee

Ant

Cockroach

Answer: C

25.

A safety device which opens an electric circuit to prevent too much current from passing through the circuit is the

earth wire.

lightning conductor.

fuse.

switch.

Answer: C

26.

Which of the following environmental factors increases sweating in humans?

Low temperature

Low pressure

High pressure

High temperature

High humidity

Answer: D

27.

A breeding female pig is called a

doe.

gilt.

heifer.

sow.

Answer: D

28.

Washing down of soil nutrients beyond the reach of roots of plants is referred to as

aeration.

infiltration.

leaching.

percolation.

Answer: C

29.

Which of the following pairs of energy sources is environmentally friendly?

Coal and thermal energy

Wind and biogas

Wind and coal

Biogas and thermal energy

Answer: B

Renewable energy sources are environmentally friendly.

30.

What is the difference between mass and weight? The

mass of a body is twice the weight

weight of a body is constant but its mass varies

mass of a body varies but its weight does not

weight of a body varies but its mass does not

mass of a body is half the weight

Answer: D

31.

A disease-causing organism that is most difficult to control in crop production is

bacterium

fungus

nematode

virus

Answer: A

32.

A body of mass 50 kg falls through a height of 5 m. If the acceleration due to gravity is 10 ms^-2, calculate the loss in potential energy.

50 J

250 J

500 J

2500 J

Answer: D

Potential Energy = Mass x Acceleration due to gravity x Height
Mass = 50 kg
Acceleration due to gravity = 10 ms^-2
Height = 5 m
Potential Energy = 50 x 5 x 10 J
Potential Energy = 2500 J

33.

Which of the following is a liquid?

Iron

Mercury

Brass

Gold

Aluminium

Answer: B

34.

The joule is the S.I unit for

energy.

force.

power.

pressure

Answer: A

35.

The process by which kerosene rises up to the wick of a lantern is known as

capillarity.

diffusion.

surface tension.

osmosis.

Answer: A

36.

The ion that causes hardness in water is

CO₃^2-.

Mg²⁺.

Na⁺.

OH^-.

Answer: B

Calcium (Ca²⁺) and magnesium (Mg²⁺) are the causes the hardness of water.

37.

The S.I unit of energy is represented as

Joule.

joule.

Js.

Answer: A

The unity name begins with a Capital letter and symbol is capital J.

38.

Which of the following statements about machines is/are correct?

I. Machines help us to do work more easily
II. A force applied at one point of the machine overcomes a load at another point of the machine
III. All machines have engines

I only

II only

III only

I and II only

II and III only

Answer: D

39.

Brass is an alloy made up of

Aluminium and zinc

Copper and tin

Copper and zinc

Iron and carbon

Steel and tin

Answer: C

40.

In a first class lever, the load is placed

on the effort

between the effort arm and the pivot

at one end of the load arm

between the pivot and the load arm

on the pivot

Answer: C

THEORY QUESTIONS

(a)

Fig. 1(a) is an illustration of the longitudinal section of the mammalian heart.

Study it carefully and answer the questions that follow

(i)

State one function for each of the parts labelled I, II, IX and X.

(ii)

Explain briefly why the left lower part of the heart has a thicker muscle.

(iii)

State two ways by which the flow of blood to and from the mammalian heart as shown in Fig 1(a) can be kept at acceptable levels.

(iv)

Name two parts of the heart where oxygenated blood can be found.

(b)

Fig. 1(b) is an illustration of three sets of plant parts labelled P(maize grains), Q(tomato seedlings) and R(cassava cutting).

Study it carefully and answer the questions that follow

(i)

Describe briefly how each of the parts labelled P, Q and R are planted on seedbed.

(ii)

State four conditions under which R can be cultivated to produce high yield.

(c)

Fig. 1(c) is an electric circuit diagram

Study it carefully and answer the questions that follow

(i)

State one function for each of the parts labelled I, II, III and IV.

(ii)

If the voltmeter reads 2.4 V and the ammeter reads 0.8 A when the circuit is closed, calculate the value of the part labelled IV.

(iii)

State one way of conserving the value of the part labelled I in the circuit.

(iv)

State two observations that can be made when the circuit is closed.

(d)

Fig. 1(d) illustrates an experiment performed to separate the components of a mixture.

Study it carefully and answer the questions that follow

(i)

Describe briefly the process of this experiment.

(ii)

State one function for each of the parts labelled II and IV.

(iii)

State two precautions that should be taken to obtain reliable results when performing this experiment.

(a)

(i)

Function of labelled parts

I → Carries blood from the heart/left ventricle to the circulatory system
II → Brings (oxygenated) blood from lungs to heart/left auricle/atrium
IX → Brings (deoxygenated) blood from the body to heart/right atrium/right side of heart
X → Carry (oxygen deficient) blood from heart to lungs/right side of heart/right ventricle to lungs

(ii)

Why the left lower part of the heart has a thicker muscle

Contracts to pump (oxygenated) blood with high pressure to all parts of the body

To generate high pressure to allow blood to reach all parts of the body

(iii)

Ways by which the flow of blood to and from the mammalian heart can be kept at acceptable levels

1. Exercising
2. Not smoking
3. Taking iron rich foods/balanced diet
4. Regulating one's blood pressure
5. Stress management
6. Get enough sleep
7. Healthy weight
8. Limit alcohol consumption
9. Manage diabetes
10. Regular health check-up

(iv)

Parts of the heart where oxygenated blood can be found

1. Aorta
2. Pulmonary vein
3. Left atrium
4. Left ventricle

(b)

(i)

How P (Maize grains) is planted on seedbed

1. Make holes (using cutlas or stick/dibber)
2. Place 2 or 3 seeds per hole and cover with soil

How Q (Tomato seedlings) is planted on seedbed

1. Remove a plant seedling from a nursery gently
2. Place the seedling in a prepared hole
3. Firm the soil around the seedling with hands
4. Water immediately

How R (Cassava cuttings) is planted on seedbed

1. Dig a hole/loosen the soil/dig trenches
2. Turn the cutting with the nodes/buds facing upwards
3. Place (two thrifts of) cutting into the hole
4. Firm soil around the cutting

(ii)

Conditions under which R(Cassava cuttings) can be cultivated to produce high yield

1. Adequate rainfall/water/irrigation
2. Fertile soil
3. Soil with good structure
4. Absence of diseases
5. Absence of pests
6. Sunlight

(c)

(i)

Function of labelled parts

I → Converts chemical energy to electrical energy/generates voltage
II → Closes and opens circuit/allows charges to flow or not flow
III → Stores electric charges
IV → Opposes flow of charges/current

(ii)

V = IR

R = $\frac{V}{I}$

Voltage (V) = 2.4 V

Current (I) = 0.8 A

Resistance (R) = $\frac{2.4 V}{0.8 A}$ = 3 Ω

Note: Mark is deducted for answer without a unit (Ω)

(iii)

Way of conserving the value of the part labelled I (Cell/Battery) in the circuit

Open key/switch when not taking readings.

(iv)

Observations that can be made when the circuit is closed

1. Ammeter will read/deflect
2. Voltmeter will read/deflect

(d)

(i)

Description of the process of the experiment

1. Make the set-up as shown in the diagram
2. Put two immiscible liquids into the separating funnel/I
3. Allow the mixture to stand
4. And separate into two layers
5. Open the tap to drain the liquid at the bottom into the conical flask/III
6. Close the tap after draining the liquid at the bottom

Note: the steps must be in sequence. When sequence is broken, marking is stopped.

(ii)

Function of the labelled parts

II → Regulate/control of the flow of liquid
IV → To hold the separating funnel

(iii)

Precautions that should be taken to obtain reliable results when performing this experiment

1. The tap should be opened gently to release only the bottom liquid
2. The retort stand should be firm enough to hold the separating funnel
3. The mixture should be left to stand for sometime to settle and separate
4. The retort stand should be placed on a flat surface

(a)

(i)

State what happens when photosynthesis occurs in a leaf.

(ii)

What is pollination?

(b)

Explain briefly why the mass of lumpy charcoal remains unchanged when ground into powder but the mass of the same lump changes when heated to burn.

(c)

(i)

What is a physical quantity?

(ii)

State two physical quantities

(d)

State two importance each of:

(i)

light;

(ii)

temperature;

in crop production

(a)

(i)

What happens when photosynthesis occurs in a leaf

Plants take in carbon dioxide (CO_{2) and water (H2O) from the air and soil. Within the plant cell, the water is oxidized, meaning it loses electrons, while the carbon dioxide is reduced, meaning it gains electrons. This transforms the water into oxygen and the carbon dioxide into glucose. Light is also absorbed by chlorophyll}

(ii)

pollination is the transfer of pollen from the anther of a flower to the stigma of the same flower or another flower of the same type

(b)

Grinding lumpy charcoal is a physical change and therefore the components remain unchanged but burning charcoal is a chemical change and some of the components are released into the atmosphere

(c)

(i)

A physical quantity is any physical property of a material or substance that can be quantified, that is, can be measured using numbers

(ii)

1. Mass
2. Force
3. Density
4. Length
5. Temperature
6. Volume
7. Electric current
8. Velocity
9. Time

(d)

(i)

Importance of light in crop production

1. Needed for photosynthesis
2. Affects developments of fruits/growth of vegetative parts of crops
3. Absence of light results in weak stem

(ii)

Importance of temperature in crop production

1. Required for germination
2. Delays ripening of fruits when temperature is low
3. High temperature can cause evaporation from the soil causing water deficit for crops
4. High temperature can scorch the leaves of crops
5. Needed for photosynthesis/growth and development of plants

(a)

Define the following terms and give an example each

(i)

Herbivore

(ii)

Carnivore

(iii)

Omnivore

(b)

Two dry cells connected in parallel are in turn connected in series with a bulb and switch.

Draw a circuit diagram to illustrate this arrangement.

(c)

List four garden tools

(d)

What property of water causes mosquito larvae to float on it?

(e)

Describe an experiment you prepared to show that some part of air is used in burning.

(a)

(i)

Herbivore is an animal that feeds on plants only

Examples: Goat, rabbit, sheep, deer, cow, elephant, giraffe, horse

(ii)

Carnivore is an animal that feeds on the flesh of other animals only

Examples: Lion, wolf, leopard, hyena, polar bear, cat, cheetah, giant panda, felidae, tiger, sharks, venus fly trap

(iii)

Omnivore is an animal that feeds on both plants and animals

Examples: Man, bears, birds, dog, raccoons, fox, certain insects

(b)

(c)

List of garden tools

1. Cutlass
2. Hoe
3. Rake
4. Axe
5. A pair of secateurs
6. Garden fork/digging fork/foot fork
7. Spade
8. Hand trowel
9. Hand fork
10. Watering can
11. Garden shears

(d)

Surface tension

(e)

An experiment to show that some part of air is used in burning

1. Two candles are lighted simultaneously
2. Glass jar is mounted on one of the candles
3. It is observed that after a while, the candle under the inverted glass jar went off because it was no longer supplied with air whiles the other candle without the inverted glass jar kept on burning
4. It can be concluded that some part of air is used in burning

(a)

(i)

What is a vector of a disease?

(ii)

State two methods each by which the vectors of the following diseases can be destroyed:

(α)

river blindness;

(β)

malaria.

(b)

Write down the systematic names of the following compounds:

(i)

CaCo₃;

(ii)

FeS;

(iii)

NaCl;

(iv)

NaOH.

(c)

(i)

Give the two properties that are common to all states of matter.

(ii)

In an experiment to determine the density, a stone of mass 60 g is put into a bowl containing water. If the level of the water rises from 60 cm³ to 75 cm³, determine the density of the stone.

(a)

(i)

A vector is an agent/organism that transmits/spreads disease causing organisms/pathogens from diseased organisms to healthy ones.

(ii)

(α)

Methods used to destroy the vector of river blindness

1. Spraying the banks of rapidly moving rivers to kill the black fly/adult/larvae
2. Clearing the bushes and vegetation along the banks of rapidly moving rivers to destroy breeding places of the black fly

(β)

Methods used to destroy the vector of malaria

1. Spraying to kill the adult mosquitoes/larvae
2. Pouring oil on stagnant water to suffocate larvae of mosquito
3. Stocking rivers and ponds with the type of fish that feeds on mosquito larvae
4. Draining stagnant water to stop breeding of mosquitoes
5. Treat mosquito net to kill mosquitoes
6. Clearing bushes around the house

(b)

(i)

Systematic name of CaCo₃

Calcium trioxocarbonate (IV)

(ii)

Systematic name of FeS

Iron (II) sulphide

(iii)

Systematic name of NaCl

Sodium chloride

(iv)

Systematic name of NaOH

Sodium hydroxide

(c)

(i)

Properties that are common to all states of matter

1. Matter occupies space/has volume
2. Matter has weight/mass

(ii)

Density = $\frac{Mass}{Volume}$

Mass = 60 g

Volume = Final Volume - Initial Volume

Volume = 75 cm³ - 60 cm³
Volume = 15 cm³

Density = $\frac{60 g}{15 {cm}^{3}}$

Density = 4 gcm^-3

State the difference between organic fertilizer and inorganic fertilizer.

ii)

State two effects of inorganic fertilizer on the environment.

Classify the following substances as acids or bases.

unripe lemon juice;

ii)

wood ash;

iii)

liquid in a car battery;

iv)

bicarbonate of soda.

What is a fruit?

ii)

State two differences between a fruit and a seed.

State the effect of heat on each of the following substances:

plastics;

ii)

alcohol;

iii)

metal rod.

Difference between organic fertilizer and inorganic fertilizer

Organic fertilizer is obtained from plant and animals whilst inorganic fertilizers are obtained from artificial/synthetic/non-living/chemical materials.

ii)

Effects of inorganic fertilizer on the environment

1. It pollutes water bodies/causes air or land pollution
2. It increases soil acidity
3. It kills plants and other organisms in the soil

Classification of substances as acids or bases

unripe lemon juice → acid

ii)

wood ash → base

iii)

liquid in a car battery → acid

iv)

bicarbonate of soda → base

Fruit is a structure that develops from a fertlized ovary and contains a seed/seeds.

ii)

Differences between a fruit and a seed

Fruit	Seed
Has two scars	Has one scar
Contains seed/seeds	Contains an embryo
Outer covering is pericarp/fruit coat	Outer covering is seed coat/testa
Develops from ovary	Develops from ovule

Effects of heat on plastics

1. It melts
2. It burns

ii)

Effects of heat on alcohol

1. It expands
2. It evaporates
3. It boils

iii)

Effects of heat on metal rod

1. It expands
2. It melts
3. It bends

Define each of the following terms:

alloy

ii)

diffusion

iii)

colloid

Give two examples each of:

alloy

ii)

colloid

What is pollution?

ii)

List two pollutants each of:

α)

air

β)

water

γ)

land

A coconut of weight 50 N hangs 15 m above the ground.

Name the type of energy possessed by the coconut.

ii)

Calculate the value of this energy

An alloy is a uniform/homogenous mixture of two or more metals or a metal and non-metal.

ii)

Diffusion is the process whereby molecules/particles of a liquid/gas move from a region of higher concentration to a region of a lower concentration until they are uniformly spread throughout an occupied space.

iii)

A colloid is a suspension in which the suspended particles are very small in size but bigger than the molecules of the solvent and are permanently suspended/does not settle on standing.

Examples of alloy

1. Bronze
2. Brass
3. Steel
4. Solder
5. Duralumin
6. Cupronickel

ii)

Examples of colloid

1. Emulsion paint
2. Fog
3. Smoke
4. Milk
5. Toothpaste
6. Mist
7. Soap lather
8. Clay in water
9. Chalk in water
10. Gel
11. Aerosols

Pollution is the release of toxic/harmful/poisonous substances into the environment.

ii)

α)

Pollutants of air

1. Smoke
2. Exhaust fumes
3. Dust
4. Carbon monoxide
5. Sulphur (IV) oxide (SO₂)
6. Sulphur (VI) oxide (SO₃)

β)

Pollutants of water

1. Untreated sewage/waste
2. DDT
3. Fertilizer
4. Detergents
5. Factory wastes
6. Oil spillage/discharge from oil tankers

γ)

Pollutants of land

1. Scrap metals
2. Empty tins
3. Polyethylene bags
4. Bottles
5. Sewage
6. Refuse
7. Mining and quarrying waste

Potential energy

ii)

Potential Energy = Mass (m) x Acceleration due to gravity (g) x Height (h)

Weight = Mass x Acceleration due to gravity

Potential Energy = Weight x Height

Weight = 50 N
Height = 15 m

Potential Energy = 50 N x 15 m = 750 J