KUULCHAT
SCIENCE MOCK
OBJECTIVE TEST
1.
What is the colour of the neutral wire in a three-pin plug?
A.
Blue
B.
Brown
C.
Green
D.
Yellow
Answer: A
2.
Kerosene is able to reach the other end of a wick by
A.
diffusion.
B.
suction pressure.
C.
capillary action.
D.
osmosis.
Answer: C
3.
Which of the following processes is a chemical change?
A.
Digestion of starch by saliva
B.
Melting of wax
C.
Dissolution of sugar in water
D.
Boiling of water
E.
Evaporation of sea water
Answer: A
4.
Which of the following items converts chemical energy to electrical energy?
A.
Dry cell
B.
Electric bulb
C.
Loudspeaker
D.
Microphone
Answer: A
5.
On heating a certain solid in a dry container, all the substance was lost without passing through the liquid state. This means the
A.
solid can easily melt
B.
solid is an alloy
C.
solid cannot stand heat
D.
solid particles are held together by weak forces
E.
solid undergoes sublimation
Answer: E
6.
A meal containing all the essential nutrients in the right amounts is said to be
A.
delicious.
B.
balanced.
C.
well-cooked.
D.
rich in fibre.
Answer: B
7.
Use the information below to answer the question that follow.
A solid X reacted with a liquid Y to form a salt and water only. A portion of liquid Y turned blue litmus paper red. Solid X did not dissolve when a portion of it was placed in water and stirred.
If red litmus paper is placed in liquid Y, the colour of the paper will
A.
remain the same.
B.
change to blue.
C.
change to purple.
D.
become brighter.
Answer: A
8.
The instrument used in measuring the speed of wind is called:
A.
Thermometer
B.
Wind Vane
C.
Photometer
D.
Anemometer
E.
Hygrometer
Answer: D
9.
When salt is put into soups, it
A.
five months
B.
six months
C.
seven months
D.
nine months
E.
eleven months
Answer: D
10.
The shape of a child’s nose may resemble that of the mother due to
A.
heredity
B.
similarity
C.
reflection
D.
familiarity
E.
attraction
Answer: A
11.
Which of the following effects are caused by rusting?
I. Loss of strength
II. Loss of structure
III. Loss of electrical conductivity
A.
I and II only
B.
I and III only
C.
II and III only
D.
I, II and III
Answer: D
12.
Which of the following is a physical change?
A.
Heating of sugar
B.
Heating of sulphur and iron filing
C.
Boiling of water
D.
Burning of magnesium ribbon
E.
Heating of potassium chlorate
Answer: C
13.
An object is placed 20 cm in front of a plane mirror. The distance between the object and the image is
A.
20 cm.
B.
40 cm.
C.
60 cm.
D.
80 cm.
Answer: B
Characteristics of image formed by a plane mirror
1. The image formed by a plane mirror is virtual and erect.
2. The image formed by a plane mirror is of the same size as the object.
3. The image is formed behind the mirror and the distance of the image from the mirror is equal to the distance of the object from the mirror.
Distance between the object and the image = Object distance + image distance
Distance between the object and the image = 20 cm + 20 cm = 40 cm
14.
A torchlight derives its energy from
A.
petrol
B.
kerosene
C.
a magnet
D.
gas oil
E.
a dry cell
Answer: E
15.
The chemical formula of a compound describes the
A.
number of molecules in the compound.
B.
type of bonding in the compound.
C.
ratio in which the elements are combined.
D.
state of the compound.
Answer: C
16.
The carrier of the malaria parasite is the
A.
black fly.
B.
tsetse fly.
C.
female anopheles mosquito.
D.
male anopheles mosquito.
Answer: C
Why the male mosquitoes cannot transmit malaria
The biting female Anopheles mosquito may carry malaria. Male mosquitoes do not bite so cannot transmit malaria or other diseases. The adult females are generally short-lived, with only a small proportion living long enough (more than 10 days in tropical regions) to transmit malaria.
17.
Which of the following substances is a solid-gas mixture?
A.
Lather
B.
Bronze
C.
Steel
D.
Smoke
Answer: D
18.
Which of the following processes is used to separate insoluble solids from liquids?
A.
Distillation
B.
Sublimation
C.
Filtration
D.
Evaporation
E.
Sedimentation
Answer: C
19.
Which of the following fruits is adapted for dispersal by air?
A.
Succulent fruit
B.
Brightly coloured fruit
C.
Sticky fruit
D.
Hairy fruit
Answer: D
20.
Which of the following modes of heat transfer is the thermos flask designed to minimize?
I. Conduction
II. Convection
III. Radiation
A.
I and II only
B.
I and III only
C.
II and III only
D.
I, II and III
Answer: D
21.
Which of the following pairs of structures are present in animal cells?
A.
Mitochondrion and Chloroplast
B.
Nucleus and chloroplast
C.
Vacuole and nucleus
D.
Cell wall and mitochondrion
Answer: C
22.
Which of the following soil types can hold the least amount of water?
A.
Loam
B.
Clay
C.
Silt
D.
Sand
E.
Sandy loam
Answer: D
23.
The space occupied by matter is its
A.
area
B.
length
C.
radius
D.
width
E.
volume
Answer: E
24.
A piece of stone could be classified as an opaque material because it
A.
absorbs all the light incident on it.
B.
does not absorb light incident on it.
C.
allows all the light incident on it to pass through it.
D.
does not allow light incident on it to pass through it.
Answer: D
25.
What is the chemical symbol for silver?
A.
Ag
B.
Au
C.
Si
D.
S
Answer: A
26.
An entrepreneur's decision as to what to produce is a/an
A.
co-ordinating function
B.
organizing function
C.
planning function
D.
supervising function
Answer: C
27.
Canned foods and drinks have expiry dates on them. The hazard involved in taking an expired drink is
A.
food poisoning.
B.
impaired hearing.
C.
poor circulation of blood.
D.
suffocation.
Answer: A
28.
The farming practice which would improve soil fertility is
A.
clean weeding.
B.
crop rotation.
C.
continuous cropping.
D.
mono cropping.
Answer: B
Importance of crop rotation
1. Increases soil fertility/Adds nitrogen to soil
2. Enhances soil structure
3. Prevents soil erosion
4. Improves soil nutrients and nutrient uptake regulation
5. Controls the spread of pests and diseases
6. Controls weed easily
7. There is effective use of the land
8. Harvest of different types of crops on the same piece of land
29.
Calculate the voltage across a wire of resistance 4 ohms if 3 amperes of current is passed through it.
A.
0.75 V
B.
1.00 V
C.
1.33 V
D.
7.00 V
E.
12.00 V
Answer: E
30.
Which of the following illustrations shows the correct direction of the lines of force around a bar magnet?
A.
B.
C.
D.
Answer: B
The direction of magnetic lines of force of a bar magnet is from north to south pole outside the magnet as shown in figure below.
31.
Which of the following structures contain cellulose?
A.
Cell wall
B.
Cell membrane
C.
Chloroplast
D.
Mitochondrion
Answer: A
32.
The food substance needed for growth and repair of tissue is
A.
carbohydrates.
B.
oil.
C.
protein.
D.
vitamin.
Answer: C
33.
The function of the lungs is to
A.
maintain a constant amount of water in the body.
B.
absorb oxygen from the blood.
C.
absorb carbon dioxide from the blood.
D.
maintain the temperature of the body constant.
Answer: C
How the lungs work
Every cell in your body needs oxygen to live. The air we breathe contains oxygen and other gases. The respiratory system's main job is to move fresh air into your body while removing waste gases.
Once in the lungs, oxygen is moved into the bloodstream and carried through your body. At each cell in your body, oxygen is exchanged for a waste gas called carbon dioxide. Your bloodstream then carries this waste gas back to the lungs where it is removed from the bloodstream and then exhaled. Your lungs and respiratory system automatically perform this vital process, called gas exchange.
34.
Viable seeds are ones that
A.
are able to germinate under suitable conditions.
B.
are eaten by animals after planting.
C.
contain a lot of oil.
D.
have hard seed coat.
Answer: A
35.
The by-product of photosynthesis is
A.
carbon dioxide.
B.
starch.
C.
oxygen.
D.
water.
Answer: C
Equation of photosynthesis
6CO2 + 6H2O → C6H12O6 + 6O2.
This means that the reactants, six carbon dioxide molecules and six water molecules, are converted by light energy captured by chlorophyll (implied by the arrow) into a sugar molecule and six oxygen molecules, the products.
36.
The disease caused by the Plasmodium parasite is
A.
Cholera.
B.
malaria.
C.
onchocerciasis.
D.
schistosomiasis.
Answer: B
37.
The figure below shows a simple electric circuit.
Use it to answer the question below.
The purpose of the component labelled IV is to
A.
supply energy to the circuit.
B.
measure the voltage of the battery.
C.
prevent too much current from flowing.
D.
close the circuit.
Answer: C
38.
Which of the following bodies are natural sources of light?
I. Moon
II. Sun
III. Glow Worm
A.
I and II only
B.
I and III only
C.
II and III only
D.
I, II and III
Answer: C
A natural source of light is light that occurs naturally without the involvement of humans.
Natural sources of light can come from either an object or a living species.
Examples include the Sun, stars, lightning, jellyfish, fireflies, glowworms, angler fish, etc.
Note
The moon is not a natural source of light in the sense that it doesn't produce its own light. The light we see from the moon is actually sunlight reflected off its surface. The moon is a non-luminous object, meaning it doesn't emit light, and only reflects the light it receives from other sources, primarily the sun.
39.
The main waste products formed in plants are
A.
water, carbon dioxide and urea
B.
water, carbon dioxide and oxygen
C.
water, carbon dioxide and mineral salts
D.
water, ammonium compounds and oxygen
E.
water, ammonium compounds and carbon dioxide
Answer: D
40.
Which of the following diseases affects the central nervous system?
A.
Cerebro Spinal Meningitis (CSM)
B.
Poliomyelitis
C.
Measles
D.
Yellow Fever
Answer: A
THEORY QUESTIONS
1.
a)
i)
What is a food chain?
ii)
Why is the plant in any food chain referred to as producer?
iii)
What is the term given to the other organisms that depend directly or indirectly on the producer for food.
b)
The diagram below is an illustration of the picture obtained on a screen when an opaque object is placed in the in the path of a light source.
Study the diagram carefully and answer the questions that follow.
i)
Name each of the shadows that is cast on the screen:
α)
A;
β)
B.
ii)
What does the shadow of the object cast on the screen illustrate?
c)
Describe briefly how a sample of pure sugar could be obtained from a mixture of sugar and sand.
d)
State three ways by which soil can be conserved.
a)
i)
Food chain is the linear relationship between organisms that shows the transfer of energy from one organism to another through feeding and being fed on by another.
ii)
Because plants produce/make their own food through the process of photosynthesis
iii)
Consumer(s)
b)
i)
Name of shadows
α)
A → Umbra/Total shadow
β)
B → Penumbra/Partial shadow
ii)
It illustrates that light travels in a straight light
c)
How to separate Sugar from Sand
1. Pour the mixture into a funnel fitted with filter paper placed over a beaker
2. Add water to the mixture and stir for the sugar solution (sugar and water) to drain
3. The filtrate (sugar and water) is evaporated to remove the water from it leaving only the sugar
d)
Ways of conserving soil
1. Crop rotation
2. Mulching
3. Addition of fertilizer/manure
4. Avoid overgrazing
5. Afforestation
6. Avoid bush burning
7. Practice cover cropping
8. Prevent soil erosion
2.
a)
i)
What is a mixture?
ii)
Explain why some mixtures are thoroughly stirred before they are used.
b)
i)
What is reflection of light?
ii)
State two characteristics of the images formed by plane mirrors.
c)
i)
What is a fertilizer?
ii)
Give one example of an inorganic fertilizer.
d)
i)
What is indiscriminate sex?
ii)
State two dangers of indiscriminate sex on humans.
a)
i)
Mixture is what is formed when two or more substances are put together/combine physically.
ii)
Why some mixtures are thoroughly stirred before they are used
Mixtures are thoroughly stirred to make a homegenous/uniform mixture
OR
Mixtures are thoroughly stirred to make even/uniform concentration
b)
i)
Reflection of light is the bouncing of light from a surface.
ii)
Characteristics of the images formed by plane mirrors
1. It is erect (upright)
2. It is virtual
3. It is laterally inverted
4. Same distance behind mirror as object is in front of mirror
5. Same size and shape as the object
c)
i)
Fertilizer is any substance which is applied to the soil or plant to supply nutrients for plant growth.
ii)
Examples of an inorganic fertilizer
1. Urea
2. Muriate of potash
3. Single super phosphate (SSP)/sulphate of ammonia
4. NPK
d)
i)
Indiscriminate sex is the act of having sexual intercourse with different/many/multiple partners.
ii)
Dangers of indiscriminate sex on humans
1. Acquiring sexually transmitted diseases
2. Unwanted pregnancy/becoming pregnant
3. Causing abortion
3.
(a)
(i)
What is neutralization reaction?
(ii)
Write a balanced chemical equation for the reaction between each of the following pairs of substances:
(α)
Sodium metal and dilute hydrochloric acid
(β)
Sodium hydroxide and dilute hydrochloric acid
(b)
Explain weaning as used in animal production.
(c)
(i)
What is a Milky Way?
(ii)
State one use of artificial satellites.
(d)
(i)
What is a habitat?
(ii)
Give two examples of a habitat.
(a)
(i)
Neutralization reaction is a chemical reaction between an acid and a base to form salt and water only.
(ii)
(α)
Reaction between sodium metal and dilute hydrochloric acid
2Na(s) + 2HCl(aq) → 2NaCl(s) + H2(g)
(β)
Reaction between sodium hydroxide and dilute hydrochloric acid
NaOH(aq) + HCl(aq) → NaCl(aq) + H2O(l)
(b)
Weaning is the changing of the offspring's diet from breast milk to other kinds of food.
(c)
(i)
Milky Way is the galaxy in which the solar system is located.
OR
Milky Way is the group of planets and stars which the earth belongs to.
(ii)
Uses of artificial satellites
1. For space exploration
2. For communication/broadcasting/telephone call
3. For weather forecasting/collecting information on the weather
4. For scientific research/experimental research/internet
5. For military purposes/spying/espionage
6. To study the universe
7. For map making
8. For navigation/satellite for navigation
(d)
(i)
Habitat is a natural living place of an organism.
OR
Habitat is a place where an organism spends parts/all of its life.
(ii)
Examples of a habitat
1. Aquatic e.g Ponds, streams, lakes, rivers, marine (sea)
2. Terrestrial e.g Forest, Savannah, thicket
3. Arboreal e.g Tree branches, leaves
4.
(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
OR
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 =
Voltage (V) = 2.4 V
Current (I) = 0.8 A
Resistance (R) = = 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
5.
a)
Write the systematic name for each of the following compounds.
i)
H2O;
ii)
MgO;
iii)
CaO;
iv)
CaCl2.
b)
Name the instrument used in measuring the following:
i)
Length of a rope;
ii)
Mass of a stone;
iii)
Temperature of a liquid;
iv)
Volume of a liquid.
c)
List three factors that influence vegetable crop production.
d)
Name four stages in the cycle of a flowering plant.
a)
Systematic names
i)
H2O → Water/dihydrogen monoxide/hydrogen oxide
ii)
MgO → Magnesium oxide
iii)
CaCO → Calcium oxide
iv)
CaCl2 → Calcium chloride
b)
Measuring instruments
i)
Length of a rope → Metre rule/tape measure/ruler/surveyor's tape
ii)
Mass of a stone → Beam balance/chemical balance/top pan balance/electronic balance
iii)
Temperature of a liquid → Thermometer
iv)
Volume of a liquid → Volumetric flask/pipette/graduated cylinder/measuring cylinder/burette/graduated beaker
c)
Factors that influence vegetable crop production
1. Slope of land/topography
2. Water/water supply or quality
3. Crop/variety selection
4. Market development
5. Soil type/quality/fertile soil
6. Method of propagation
7. Cultural practices(or any named cultural practice)
8. Harvesting
9. Weather conditions
10. Storage
11. Disease (control)
12. Processing
d)
Stages in the cycle of a flowering plant
1. Seed/fruit formation
2. Germination
3. Reproduction
4. Pollination
5. Seed spreading/dispersal
6. Flowering
7. Fertilization
8. Maturation of fruit or Seed
9. Seedling
10. Growth/maturation/matured plant
6.
a)
i)
State two uses of water in agriculture.
ii)
Name two crops that are deep rooted.
b)
i)
Explain the term circulatory system in humans.
ii)
Classify each of the following processes as diffusion or osmosis:
α)
absorption of water by the roots of a plant
β)
movement of digested food from the small intestine into the blood stream
c)
i)
What is mass?
ii)
A box of equal size 3cm has a density of 2.0gcm-3.What is its mass?
d)
Give the state of each of the following substances:
i)
ash;
ii)
carbon dioxide.
a)
i)
Uses of water in agriculture
1. Cleaning
2. Irrigation
3. Fishing/Fish farming
4. For fertilizer application
5. For pest control
6. Drinking/consumption by farm animals
ii)
Deep rooted crops
1. Tomato
2. Carrots
3. Yam
4. Cassava
5. Watermelon
6. Cocoyam
7. Pumpkin
b)
i)
Circulatory system is a collection of tissues and organs which transports materials or food or water or oxygen throughout the (whole) body
ii)
α)
Absorption of water by the roots of a plant
Osmosis
β)
Movement of digested food from the small intestine into the blood stream
Diffusion
c)
i)
Mass is the amount of substance (matter) in a body or particle
Is a measure of how much matter is in an object
ii)
Density = Mass / Volume
Mass = Density x Volume
Density = 2.0 g cm-3, Length = 3 cm
Length of a cuboid (Equal size) = Length x Length x Length
Volume of the box = 3 cm x 3 cm x 3 cm = 27.0 cm3
Mass = 2.0 g cm-3 x 27.0 cm3 = 54.0 g
d)
i)
ash → solid
ii)
carbon dioxide → gas