ks3 science

Question 1

organ

Answer 1

tissues working together to perform a specific function.

Question 2

organism

Answer 2

systems working together as a living thing

Question 3

tissue

Answer 3

a group of cells

Question 4

organ system

Answer 4

organs working together to perform

Question 5

types of tissues

Answer 5

connective tissue, epithelial tissue, muscle tissue, and nervous tissue.

Question 6

muscles

Answer 6

-Specialised tissues in the body that are responsible for movement.

-Attached to bones via tendons and can contract and relax

-Muscles work in pairs with one muscle contracting and the other relaxing

Question 7

joints

Answer 7

-locations where bones come together.

-responsible for allowing movement in the body.

-Joints can be divided into three categories: fibrous, cartilaginous and synovial.

-Synovial joints are the most common type of joint and are fully movable.

Question 8

tendons

Answer 8

-strong, fibrous connective tissues that attach muscle to bones

-responsible for transferring the force generated by muscles to the bone, allowing body parts to move.

Question 9

ligaments

Answer 9

-strong fibrous connective tissues that connect bones to other bones at joints.

-provide stability to the joint and help prevent too much movement of dislocation

Question 10

variation

Answer 10

there is variation between individuals in a population.

occasionally, new mutations occur which give an advantage.

Question 11

competition

Answer 11

-the individuals in a population compete for food, shelter and mates

Question 12

adaptation

Answer 12

organisms develop traits or behaviors that enhance their survival and reproduction in a particular environment.

.

Question 13

natural selection

Answer 13

the individuals with better adaptations are more likely to survive.

“only the fittest of the fittest shall survive”

Question 14

inheritance

Answer 14

when they reproduce, they pass on the alleles for useful adaptation

Question 15

allele

Answer 15

An allele is a variant form of a gene.

Question 16

why do living organisms carry out respiration?

Answer 16

to release and use energy

Question 17

how is respiration different to breathing?

Answer 17

respiration is a chemical reaction that takes place within cells whilst breathing is the exchange of gases in the body.

Question 18

what can the energy released by respiration be used for?

Answer 18

movement, growth, cell repair and control of body temp in mamals.

Question 19

Aerobic respiration

Answer 19

respiration INVOLVING the use of oxygen

Question 20

equation for aerobic respiration

Answer 20

glucose+oxygen->carbon dioxide+water+(energy)

Question 21

anaerobic respiration

Answer 21

respiration that doesn’t involve oxygen and usually occurs during strenuous excersise.

Question 22

ANaerobic respiration equation

Answer 22

glucose->lactic acid+(energy)

Question 23

anaerobic respiration releases
more/less energy than aerobic respiration

Answer 23

less

Question 24

what can build up in the muscles during exercise?

Answer 24

lactic acid due to anaerobic respiration, causing cramps.

Question 25

fermentation

Answer 25

type of anaerobic respiration carried out in plant cells and microorganisms like yeast.

Question 26

fermentation equation

Answer 26

glucose-> ethanol+carbon dioxide+ (energy)

Question 27

What is an ecosystem?

Answer 27

An ecosystem is a biological community of interacting organisms and their physical environment.

Question 28

What is a habitat?

Answer 28

A habitat is the natural home or environment of an organism, where it can find food, shelter, protection, and mates for reproduction.

Question 29

What is biodiversity?

Answer 29

Biodiversity refers to the variety and variability of life on Earth, encompassing diversity within species, between species, and of ecosystems.

Question 30

What is a food chain?

Answer 30

A food chain is a linear sequence of organisms where nutrients and energy pass as one organism eats another.

Question 31

Can you give an example of a simple food chain?

Answer 31

Grass → Rabbit → Fox

Question 32

What is a food web?

Answer 32

A food web is a complex network of interconnected food chains within an ecosystem

Question 33

What is a producer in an ecosystem?

Answer 33

Producers are organisms that create their own food through photosynthesis

(usually plants and algae) and serve as the base for an ecosystem’s energy.

Question 34

What is a consumer in an ecosystem?

Answer 34

Consumers are organisms that cannot produce their own food and need to consume other organisms for energy.

They can be herbivores, carnivores, or omnivores.

Question 35

bioaccumulation

Answer 35

occurs when toxins build up in a food chain

Question 36

What is inheritance?

Answer 36

Inheritance is the process by which genetic information is passed on from parents to their offspring.

Question 37

What are genes?

Answer 37

Genes are segments of DNA that contain the instructions for the development of organisms’ traits or characteristics.

Question 38

What is a chromosome?

Answer 38

DNA (deoxyribonucleic acid) is a molecule that carries the genetic instructions used in the growth, development, functioning, and reproduction of all known living organisms.

Question 39

What is a balanced diet?

Answer 39

A balanced diet includes the right proportions of carbohydrates, proteins, fats, vitamins, minerals, and water necessary to maintain good health.

Question 40

What are the effects of smoking on health?

Answer 40

smoking can cause lung cancer, heart disease, stroke, and respiratory problems. It also increases the risk of various other conditions, including osteoporosis and infertility.

Question 41

What is the role of carbohydrates in the diet?

Answer 41

Carbohydrates are the body’s main source of energy.

Question 42

What is the role of proteins in the diet?

Answer 42

Proteins are essential for growth, repair, and maintenance of body tissues.

Question 43

What is the role of fats in the diet?

Answer 43

Fats provide energy, support cell growth, protect organs, and help absorb nutrients. They are found in oils, butter, avocado, and fatty meats.

Question 44

Why is hydration important?

Answer 44

Hydration is vital for maintaining body temperature, removing waste, and lubricating joints. Water is essential for overall health.

Question 45

What are the functions of the circulatory system?

Answer 45

The circulatory system transports oxygen, nutrients, and hormones to cells and removes waste products.

Question 46

What is the role of the heart in the circulatory system?

Answer 46

The heart pumps blood throughout the body, supplying oxygen and nutrients to tissues and removing carbon dioxide and other wastes.

Question 47

What are the main parts of the respiratory system?

Answer 47

The nose, throat (pharynx), voice box (larynx), windpipe (trachea), bronchi, and lungs.

Question 48

How does the respiratory system work?

Answer 48

Air enters the respiratory system through the nose or mouth, travels down the trachea, into the bronchi, and finally into the lungs.

Gas exchange occurs in the lungs, where oxygen is absorbed and carbon dioxide is released.

Question 49

What is the role of the immune system?

Answer 49

The immune system defends the body against infectious organisms and other invaders.

Question 50

What is photosynthesis?

Answer 50

Photosynthesis is the process by which green plants and some other organisms use sunlight to synthesize nutrients (carbohydrates) from carbon dioxide and water. Oxygen is released as a byproduct.

Question 51

What are the main requirements for photosynthesis?

Answer 51

The main requirements are sunlight, carbon dioxide, water, and chlorophyll.

Question 52

What is the chemical equation for photosynthesis?

Answer 52

6CO2 + 6H2O + light energy → C6H12O6 + 6O2

Question 53

What are stomata?

Answer 53

Stomata are tiny pores found on the surface of plant leaves and stems.

They regulate gas exchange by controlling the intake of carbon dioxide and the release of oxygen and water vapor.

Question 54

How does water enter a plant for photosynthesis?

Answer 54

Water is absorbed by the roots of the plant from the soil and transported through the xylem to the leaves where it is used in photosynthesis.

Question 55

How do plants store excess glucose?

Answer 55

Plants store excess glucose as starch, which can be broken down back into glucose when needed.

Question 56

What is the role of glucose in plants?

Answer 56

Glucose is used by plants as a source of energy for cellular respiration and as a building block for the synthesis of other organic molecules.

Question 57

What is transpiration?

Answer 57

Transpiration is the process by which water evaporates from the surfaces of plant leaves, primarily through the stomata. It helps to pull water up from the roots and is important for nutrient transport.

Question 58

What is the male reproductive system composed of?

Answer 58

The male reproductive system includes the testes, epididymis, vas deferens, seminal vesicles, prostate gland, and penis.

Question 59

What is the function of the testes?

Answer 59

The testes produce sperm and testosterone.

Question 60

What is the female reproductive system composed of?

Answer 60

The female reproductive system includes the ovaries, fallopian tubes, uterus, cervix, and vagina.

Question 61

What is ovulation?

Answer 61

Ovulation is the release of a mature egg (ovum) from the ovary, which typically occurs once a month during the menstrual cycle.

Question 62

What is fertilization?

Answer 62

Fertilization is the fusion of a sperm cell with an egg cell, resulting in the formation of a zygote.

Question 63

What is the menstrual cycle?

Answer 63

The menstrual cycle is a series of monthly changes that occur in the female reproductive system, including ovulation, menstruation, and changes in hormone levels.

Question 64

What is menstruation?

Answer 64

Menstruation is the shedding of the uterine lining (endometrium) that occurs if fertilization does not occur. It is commonly known as a period.

Question 65

What are the reproductive structures of a flower?

Answer 65

The reproductive structures of a flower include the stamen (male reproductive organ) and the pistil (female reproductive organ).

Question 66

What is pollination?

Answer 66

Pollination is the transfer of pollen grains from the male reproductive organ (stamen) to the female reproductive organ (pistil) of a flower, either by wind, insects, birds, or other animals.

Question 67

What is fertilization in plants?

Answer 67

Fertilization in plants occurs when a pollen grain reaches the stigma of a flower and combines with an ovule, leading to the formation of a seed.

Question 68

What are the three states of matter?

Answer 68

solids liquids and gases

Question 69

How do particles behave in a solid?

Answer 69

In a solid, particles are closely packed in a fixed, orderly arrangement and can only vibrate in place

Question 70

How do particles behave in a liquid?

Answer 70

In a liquid, particles are close together but not in a fixed position, allowing them to flow and take the shape of their container.

Question 71

How do particles behave in a gas?

Answer 71

In a gas, particles are far apart and move freely, filling the entire volume of their container.

Question 72

What is density?

Answer 72

Density is a measure of mass per unit volume of a substance.

Density= mass/volume

Question 73

How can mixtures be separated?

Answer 73

Filtration is a method used to separate insoluble solids from liquids using a filter paper and funnel.

Question 74

What is distillation?

Answer 74

Distillation is a process used to separate mixtures based on differences in boiling points. It is used to obtain a pure liquid from a mixture of liquids.

Question 75

What is chromatography?

Answer 75

Chromatography is a technique for separating and identifying mixtures that are or can be colored, especially pigments.

Question 76

What is a chemical change?

Answer 76

A chemical change is a process where substances react and form one or more new substances with different chemical and physical properties.

Question 77

What is a physical change?

Answer 77

A physical change is a change in which no new substances are formed, and only the physical properties (such as shape, phase, or size) of the material change.

Question 78

What are the characteristics of a pure substance?

Answer 78

A pure substance has a fixed composition and distinct chemical properties. It consists of a single type of element or compound.

Question 79

What are the characteristics of an impure substance?

Answer 79

An impure substance consists of two or more types of particles (elements or compounds) mixed together without any chemical bonding between them.

Question 80

How can the purity of a substance be determined?

Answer 80

The purity of a substance can be determined by its melting and boiling points. Pure substances have sharp melting and boiling points, while impure substances melt and boil over a range of temperatures.

Question 81

What is evaporation?

Answer 81

Evaporation is a process where liquid turns into gas at the surface of the liquid, often used to separate a soluble solid from a liquid.

Question 82

How does temperature affect the state of matter?

Answer 82

Increasing temperature generally changes the state from solid to liquid to gas, while decreasing temperature reverses this process.

Question 83

What is a reversible change?

Answer 83

A reversible change is a physical change that can be undone, where the original materials can be recovered.

Question 84

What is an irreversible change?

Answer 84

An irreversible change is a chemical change where new substances are formed, and the original substances cannot be easily recovered.

Question 85

What is an element?

Answer 85

An element is a pure substance that cannot be broken down into simpler substances by chemical means. It consists of only one type of atom.

Question 86

what is a compound

Answer 86

A compound is a substance made from two or more different elements that are chemically bonded together in a fixed ratio.

Question 87

What is a mixture?

Answer 87

A mixture consists of two or more different substances mingled together but not chemically combined, meaning each substance retains its own chemical identity.

Question 88

How can elements be identified?

Answer 88

Elements can be identified by their unique physical and chemical properties, such as melting point, boiling point, density, and reactivity, as well as by their atomic number in the periodic table.

Question 89

How can compounds be separated?

Answer 89

Compounds can be separated into their constituent elements or simpler compounds by chemical means, such as electrolysis, reactions with other compounds, or heating.

Question 90

What distinguishes a compound from a mixture?

Answer 90

A compound has elements chemically bonded in a fixed ratio and cannot be physically separated, while a mixture contains two or more substances physically combined that can be separated by physical means.

Question 91

Give an example of an element.

Answer 91

Oxygen (O), Carbon (C), Hydrogen (H) are examples of elements.

Question 92

Give an example of a compound.

Answer 92

Water (H₂O), Carbon Dioxide (CO₂), and Sodium Chloride (NaCl) are examples of compounds.

Question 93

Give an example of a mixture.

Answer 93

Air, seawater, and soil are examples of mixtures

Question 94

What is a homogeneous mixture?

Answer 94

A homogeneous mixture is one whose composition is uniform throughout the mixture. examples include solutions like saltwater

They are totally transparent, even if they are coloured.

Question 95

What is a heterogeneous mixture?

Answer 95

A heterogeneous mixture is a mixture in which the composition is not uniform throughout and distinct phases or layers can be observed. Examples include oil and water.

Question 96

How does the boiling point help in separating mixtures?

Answer 96

The boiling point can help in separating mixtures through the process of distillation, where substances with different boiling points are boiled off and re-condensed separately.

Question 97

What is a chemical reaction?

Answer 97

A chemical reaction is a process that involves rearrangement of the molecular or ionic structure of a substance, as opposed to a change in physical form or a nuclear reaction.

Question 98

What are the signs of a chemical reaction?

Answer 98

Signs include color change, temperature change, gas production (bubbles), formation of a precipitate, and emission of light.

Question 99

What is a reactant?

Answer 99

Reactants are substances that undergo chemical changes during a chemical reaction.

Question 100

What is a product?

Answer 100

Products are substances that are produced in a chemical reaction from the reactants.

Question 101

What is the law of conservation of mass?

Answer 101

The law states that mass is neither created nor destroyed in a chemical reaction. Therefore, the mass of the products in a chemical reaction must equal the mass of the reactants.

Question 102

What is an exothermic reaction?

Answer 102

An exothermic reaction is one that releases energy to its surroundings, usually in the form of heat.

Question 103

What is an endothermic reaction?

Answer 103

An endothermic reaction is one that absorbs energy from its surroundings, typically as heat.

Question 104

What are catalysts?

Answer 104

Catalysts are substances that increase the rate of a chemical reaction without undergoing permanent chemical change themselves.

Question 105

What is a rate of reaction?

Answer 105

The rate of reaction measures how fast or slow a reaction takes place, often measured by the change in concentration of a reactant or product over time.

Question 106

How can the rate of a chemical reaction be increased?

Answer 106

By increasing the temperature, increasing the concentration of a reactant, increasing the surface area of a reactant, or adding a catalyst.

Question 107

How do you identify an oxidation reaction?

Answer 107

In an oxidation reaction, there is a loss of electrons or an increase in oxidation state by a molecule, atom, or ion.

Question 108

What is an acid?

Answer 108

An acid is a substance that can donate a proton (H⁺) to another substance or accept an electron pair.

-any substance that forms an aqueous solution with a ph of less that 7

Question 109

What is an alkali?

Answer 109

An alkali is a type of base that dissolves in water to form hydroxide ions (OH⁻) in solution, making the solution alkaline.

Question 110

How are acids classified?

Answer 110

Acids are classified as either strong acids, which completely ionize in solution, or weak acids, which only partially ionize.

Question 111

What are the properties of acids?

Answer 111

Acids taste sour, turn blue litmus paper red, and react with metals to produce hydrogen gas. They also neutralize alkalis to form salts and water.

Question 112

What are the properties of alkalis?

Answer 112

Alkalis taste bitter, feel slippery, turn red litmus paper blue, and neutralize acids to form salts and water.

Question 113

What is the pH scale?

Answer 113

The pH scale is a measure of the acidity or alkalinity of a solution, ranging from 0 to 14, with 7 being neutral, values less than 7 indicating acidity, and values greater than 7 indicating alkalinity.

Question 114

What happens when an acid reacts with a metal?

Answer 114

When an acid reacts with a metal, it produces hydrogen gas and a salt. The general equation is: Acid + Metal → Salt + Hydrogen gas.

Question 115

What happens when an acid reacts with a carbonate?

Answer 115

When an acid reacts with a carbonate, it produces carbon dioxide gas, water, and a salt. The general equation is: Acid + Carbonate → Salt + Water + Carbon dioxide.

Question 116

What is a neutralization reaction?

Answer 116

A neutralization reaction is a chemical reaction between an acid and a base (or alkali), resulting in the formation of water and a salt.

Question 117

What is an atom?

Answer 117

An atom is the smallest unit of an element that retains the chemical properties of that element.

Question 118

What are the three subatomic particles of an atom?

Answer 118

The three subatomic particles are protons (positively charged), neutrons (neutral charge), and electrons (negatively charged).

Question 119

Where are protons and neutrons located in an atom?

Answer 119

Protons and neutrons are located in the nucleus of an atom.

Question 120

Where are electrons located in an atom?

Answer 120

Electrons are located in orbitals or electron shells surrounding the nucleus.

Question 121

What is the atomic number of an element?

Answer 121

The atomic number of an element is the number of protons in the nucleus of an atom of that element. It is unique to each element and determines its identity on the periodic table.

Question 122

What is the mass number of an element?

Answer 122

The mass number of an element is the sum of the number of protons and neutrons in the nucleus of an atom of that element.

Question 123

What is an isotope?

Answer 123

Isotopes are atoms of the same element that have the same number of protons but different numbers of neutrons, resulting in different mass numbers.

Question 124

How many groups are there in the periodic table?

Answer 124

There are 18 groups in the periodic table.

Question 125

What are the elements in Group 1 called? and what are their properties?

Answer 125

-alkali metals
-highly reactive, soft metals that form basic (alkaline)solutions when reacted with water.
-exist as diatomic molecules in their elemental state.

Question 126

what are the elements in group 7 called? what are their properties?

Answer 126

-The elements in Group 7 are called halogens.

-Halogens are highly reactive nonmetals that form acidic solutions when they react with water.

-They exist as diatomic molecules in their elemental state.

Question 127

what are the elements in group 0 called? what are their properties?

Answer 127

-they are called noble gases

-Noble gases are colorless, odorless, and inert (unreactive) gases with low boiling points.

-They have a full outer electron shell, making them stable.

Question 128

what are metalloids?

Answer 128

Metalloids are elements with properties intermediate between metals and nonmetals, located along the staircase line on the periodic table.

Question 129

How is the periodic table organized?

Answer 129

The periodic table is organized into periods (rows) and groups (columns). Elements in the same group have similar chemical properties.

Question 130

what elements are diatomic

Answer 130

Hydrogen (H2), Nitrogen (N2), Oxygen (O2), Fluorine (F2), Chlorine (Cl2), Bromine (Br2), and Iodine (I2).

Question 131

what will be produced when acids and alkalis mix together?

Answer 131

a salt and water.

Question 132

what reactions create salts?

Answer 132

-acids and metals
reacting an acid with metal makes two products: a salt and hydrogen.

example: magnesium+hydrochloric cid->magnesium chloride+hydrogen

-acids and bases
reacting an acid with a base also creates salt as well as water.

example: sodium hydroxide+hydrochloric acid-> sodium chloride+water

Question 133

What are the main types of energy stores?

Answer 133

Chemical, kinetic, gravitational potential, elastic potential, thermal, magnetic, electrostatic, and nuclear.

Question 134

What is a system in the context of energy transfers?

Answer 134

A system is an object or group of objects; energy transfers can happen into, out of, or within the system.

Question 135

How is energy transferred between stores in a system?

Answer 135

Energy can be transferred mechanically (by a force doing work), electrically (work done by moving charges), by heating, or by radiation (light or sound).

Question 136

What is the principle of conservation of energy?

Answer 136

Energy cannot be created or destroyed, only transferred from one store to another.

Question 137

What is the formula for calculating kinetic energy (KE)?

Answer 137

KE = 0.5 × mass (kg) × velocity²

Question 138

What is work done in terms of physics?

Answer 138

Work done is the energy transferred when a force moves an object over a distance. Work done = force × distance, or
W=Fd.

Question 139

How do particles transfer energy?

Answer 139

Energy is transferred between particles by heating. In solids, energy is transferred through vibrations of particles in a lattice.

In liquids and gases, energy is transferred by the movement of particles.

Question 140

How is energy transferred by radiation?

Answer 140

Energy can be transferred by electromagnetic waves without the need for a medium, such as the heat from the Sun reaching Earth through the vacuum of space.

Question 141

What is the relationship between energy and temperature?

Answer 141

Increasing the energy of a system generally increases its temperature; the amount of increase depends on the mass of the substance, the type of material, and the energy added.

Question 142

How do we calculate the amount of energy in food and fuels?

Answer 142

The energy transferred can be calculated using the formula: energy = mass of water × specific heat capacity of water × temperature change.

Question 143

What is power in terms of physics?

Answer 143

Power is the rate at which work is done or energy is transferred. It is measured in watts (W).

Formula: power(W)–>energy/ time taken, or
P=J(joules)/t

.

Question 144

What is electric current?

Answer 144

Electric current is the flow of electric charge, measured in amperes (A). It flows from the positive terminal to the negative terminal of a power source.

Question 145

What is potential difference (voltage)?

Answer 145

Potential difference, measured in volts (V), is the difference in electrical potential energy between two points in a circuit. It drives the current around the circuit.

Question 146

Difference between series and parallel circuits.

Answer 146

In a series circuit, components are connected in a single path, so the same current flows through all components.

In a parallel circuit, components are connected across common points or junctions, providing multiple paths for the current.

Question 147

How does resistance affect a circuit?

Answer 147

Resistance, measured in ohms (Ω), opposes the flow of electric current. Higher resistance means less current for a given voltage, according to Ohm’s law (V = IR).

Question 148

What creates a magnetic field?

Answer 148

A magnetic field is created by moving electric charges (electric current). Permanent magnets also have magnetic fields due to the alignment of their internal magnetic domains.

Question 149

How does an electromagnet work?

Answer 149

An electromagnet is created by running electric current through a wire coiled around a ferromagnetic core, magnetizing the core as long as the current flows.

Question 150

How can electromagnets be used?

Answer 150

Electromagnets are used in various applications, including electric motors, speakers, and magnetic lifts, due to their ability to turn magnetic force on and off with electricity.

Question 151

How can electricity be generated using electromagnetism?

Answer 151

Electricity can be generated by moving a conductor through a magnetic field or by changing the magnetic field around a conductor, inducing an electromotive force (EMF) in the conductor.

Question 152

How to calculate total resistance in series and parallel circuits?

Answer 152

In series: Total resistance (R_total) = R1 + R2 + R3 + …
In parallel: 1/R_total = 1/R1 + 1/R2 + 1/R3 + …

Question 153

How to calculate potential difference using Ohm’s Law?

Answer 153

Potential difference (V) = Current (I) × Resistance (R).

Question 154

Explain the process of electrons transferring to your hair when rubbing a balloon against it.

Answer 154

When you rub a balloon against your hair, electrons are transferred from your hair to the balloon (or vice versa, depending on the materials) due to friction. This leaves the balloon negatively charged and your hair positively charged, causing an attractive force between them due to the difference in charges.

Question 155

What is speed and how is it calculated?

Answer 155

Speed is the rate of change of distance over time, calculated as speed = distance ÷ time. Its SI unit is meters per second (m/s).

Question 156

How do you interpret distance-time graphs?

Answer 156

A flat section represents stationary objects. A straight uphill section indicates constant speed. The steeper the graph, the faster the motion. A curve indicates acceleration.

Question 157

How do you interpret velocity-time graphs?

Answer 157

A flat section indicates constant velocity. Uphill shows acceleration, while downhill shows deceleration. The steeper the slope, the greater the acceleration. The area under the graph represents the distance traveled.

Question 158

What is pressure and how is it calculated in gases?

Answer 158

Pressure is the force exerted per unit area. In gases, pressure is caused by moving molecules colliding with container walls. It’s calculated as pressure = force ÷ area, with units of Pascals (Pa).

Question 159

How does pressure in solids work?

Answer 159

Pressure in solids depends on the force applied and the area over which it’s applied. A smaller area under the same force results in higher pressure, which explains why sharp knives cut better than dull ones.

Question 160

How is pressure calculated in liquids and what is Pascal’s law?

Answer 160

Pressure in liquids is calculated as pressure = height × density × gravity. Pascal’s law states that pressure applied to an enclosed fluid is transmitted uniformly in all directions.

Question 161

What are turning forces and how do they work?

Answer 161

Turning forces or moments are caused by applying a force at a distance from a pivot. The moment of force = force × distance from pivot, influencing how effectively a force can cause an object to rotate.

Question 162

Explain squashing and stretching forces.

Answer 162

Squashing and stretching involve compressive and tensile forces, respectively. Squashing forces reduce the length or volume of an object, while stretching forces increase it. These are crucial in structures and materials testing.

Question 163

What are drag forces and friction?

Answer 163

Drag forces and friction resist motion. Drag is a resistance force by air or liquid against the direction of an object’s movement. Friction is the resistance encountered when two surfaces slide past each other.

Question 164

How do forces act at a distance?

Answer 164

Forces like gravity and magnetism can act at a distance, meaning they exert an influence without physical contact. For example, gravitational force keeps planets in orbit around the sun.

Question 165

What distinguishes balanced and unbalanced forces?

Answer 165

Balanced forces act on an object without causing a change in motion, keeping it stationary or moving at a constant speed. Unbalanced forces cause an object to start moving, stop, or change direction.

Question 166

How do pressure and area relate to force?

Answer 166

The pressure applied to an object or surface is inversely proportional to the area over which the force is distributed.

For a given force, smaller areas result in higher pressure.

Question 167

Explain how the design of a car reduces drag forces.

Answer 167

The design of a car reduces drag forces through streamlining, allowing air to flow smoothly over and around the body, minimizing resistance and improving fuel efficiency.

Question 168

How does the depth of a liquid affect pressure?

Answer 168

The pressure in a liquid increases with depth due to the weight of the liquid above exerting a force on the liquid below, calculated as pressure = depth × density × gravitational field strength.

Question 169

What are waves and how do they transfer energy?

Answer 169

Waves are disturbances that transfer energy from one place to another without transferring matter. In sound waves, energy is transferred through vibrations of particles in a medium. In light waves, energy is transferred through electromagnetic fields in both mediums and vacuum.

Question 170

How does sound travel through different mediums?

Answer 170

Sound travels as a series of compressions and rarefactions in a medium (solid, liquid, or gas). It travels fastest in solids, slower in liquids, and slowest in gases because the particles are closer together in solids, facilitating quicker energy transfer.

Question 171

What determines the loudness and pitch of a sound?

Answer 171

Loudness is determined by the amplitude of the sound wave; larger amplitudes make louder sounds. Pitch is determined by the frequency of the sound wave; higher frequencies produce higher pitches.

Question 172

How do humans detect sound?

Answer 172

Humans detect sound through the ear, which converts vibrations of air particles into signals that the brain interprets as sound. The outer ear collects sound waves, the middle ear amplifies them, and the inner ear converts them into electrical signals.

Question 173

What are echoes and how are they used in ultrasound?

Answer 173

Echoes are reflections of sound waves off surfaces. Ultrasound uses echoes to create images of internal body structures. High-frequency sound waves are sent into the body, and the echoes that return are used to construct an image.

Question 174

How does light travel and interact with materials?

Answer 174

Light travels as electromagnetic waves and can be reflected, refracted, or absorbed by materials.

Reflection occurs when light bounces off a surface, refraction occurs when light changes direction entering a different medium, and absorption happens when the energy of light is taken up by the material.

Question 175

What is the law of reflection?

Answer 175

The law of reflection states that the angle of incidence (the angle at which light hits a surface) is equal to the angle of reflection (the angle at which light bounces off the surface), measured from the normal (a perpendicular line to the surface).

Question 176

How does refraction occur, and what is Snell’s law?

Answer 176

Refraction occurs when light waves change speed as they pass from one medium to another, causing the light to change direction.

Snell’s law describes this effect, relating the angle of incidence and refraction to the indices of refraction of the two media.

Question 177

How do the eye and the camera work similarly in focusing light?

Answer 177

Both the human eye and cameras focus light to create clear images.

The eye uses the cornea and lens to focus light onto the retina, much like a camera uses lenses to focus light onto film or a digital sensor. Both adjust focus by changing the shape of the lens or adjusting lens positions.

Question 178

How is colour perceived by the human eye?

Answer 178

Colour is perceived by the eye’s response to different wavelengths of light. The retina contains photoreceptors (cones) sensitive to red, green, and blue light. The brain interprets signals from these cones to perceive a wide range of colors.

Question 179

What are the primary colors of light?

Answer 179

The primary colors of light are red, green, and blue. When combined in various ways, they can produce a wide spectrum of colors, including the secondary colors: cyan, magenta, and yellow.

Question 180

What causes the different phases of the Moon?

Answer 180

The phases of the Moon are caused by the changing positions of the Earth, Moon, and Sun, affecting how much of the Moon’s surface is illuminated and visible from Earth.

Question 181

What are constellations, and why do they appear to change throughout the year?

Answer 181

Constellations are patterns of stars in the night sky. They appear to change due to Earth’s orbit around the Sun, changing our perspective on the stars.

Question 182

What are the main components of the Solar System?

Answer 182

The Solar System consists of the Sun, eight planets, their moons, dwarf planets, asteroids, and comets.

Question 183

How does the mass of a planet affect its gravitational pull?

Answer 183

The greater the mass of a planet, the stronger its gravitational pull. This is why objects weigh more on larger planets like Jupiter compared to Earth.

Question 184

What is the difference between a comet and an asteroid?

Answer 184

Comets are composed of ice, dust, and rocky material and often have a visible coma (a fuzzy outline and a tail) when they approach the Sun.

Asteroids are made of metals and rocky material and do not exhibit comas or tails.

Question 185

Why does the Earth experience seasons?

Answer 185

The Earth experiences seasons due to its axial tilt. As the Earth orbits the Sun, its tilted axis means different areas of the Earth receive more direct sunlight at different times of the year.

Question 186

What causes a solar eclipse?

Answer 186

A solar eclipse occurs when the Moon passes directly between the Earth and the Sun, casting a shadow on the Earth and partially or fully blocking the Sun’s light in some areas.

Question 187

What causes a lunar eclipse?

Answer 187

A lunar eclipse happens when the Earth passes directly between the Sun and the Moon, and the Earth’s shadow falls on the Moon, making it appear reddish-brown.

Question 188

How do tides work, and what role does the Moon play in them?

Answer 188

Tides are caused by the gravitational pull of the Moon and the Sun on the Earth’s oceans. The Moon’s gravity causes the water to bulge out on the side closest to the Moon and the opposite side, leading to high tides.

Question 189

how to test for lipids

Answer 189

because fats and oils are insoluble in water, they are dissolved in ethanol.

If fat is present, it will form a cloudy solution.

Question 190

how to test for starch

Answer 190

starch is the storage molecule for plants and are found in foods that are made of plant tissue.

When iodine/ potassium iodide solution is mixed, it changes from brown to dark blue. This happens when starch is present.

Question 191

How do you test for glucose in a solution?

Answer 191

the presence of glucose can be identified with Benedict’s reagent. The pale blue benedict solution is added to a prepared sample, heated up to 95 degrees.

If it changes colour or forms precipitate (solid formed by a change in solution), this indicates its presence.

If the solution turns green, this shows that a small amount of glucose is present. If it turns bright orange/ red, a lot of glucose is present.

Question 192

What are lipids important in?

Answer 192

forming cell membranes and many other molecules in the body such as fats in storage cells.

Question 193

what are the basic units of lipids, proteins and carbohydrates?

Answer 193

fatty acids and glucose
amino acids
simple sugars

Question 194

how do you test for protein in a solution

Answer 194

The biuret test is used.

If the sample of food contains protein, a blue ring appears on the surface of the water.

If the sample is shaken, the solution turns bright purple.

Question 195

difference between plant and animal cells

Answer 195

Plant cells have a rigid cell wall made of cellulose, while animal cells lack this structure.
Chloroplasts, responsible for photosynthesis, are present in plant cells but absent in animal cells.
Plant cells often contain large central vacuoles, which help maintain turgor pressure, while animal cells may have smaller vacuoles or lack them altogether.
Animal cells typically have centrioles, which play a role in cell division, while plant cells do not.
Plant cells may contain plastids, such as chromoplasts or amyloplasts, which are absent in animal cells.
Lysosomes, responsible for cellular waste management, are more prominent in animal cells compared to plant cells.
Plant cells usually have a regular, rectangular shape due to their rigid cell walls, while animal cells tend to be more irregular in shape.
Mitochondria, the powerhouse of the cell, are present in both plant and animal cells.

Question 196

How does gas exchange occur in fish?

Answer 196

Gas exchange in fish occurs through gills, where water flows over gill filaments rich in blood vessels, allowing oxygen to be absorbed and carbon dioxide to be expelled directly into the water.

Question 197

What is gas exchange?

Answer 197

Gas exchange is the biological process by which organisms exchange oxygen and carbon dioxide with their environment.

In humans and other animals, this occurs in the lungs or gills, facilitating the intake of oxygen for cellular respiration and the expulsion of carbon dioxide.

Question 198

Where does gas exchange occur in humans?

Answer 198

Gas exchange in humans occurs in the alveoli, small air sacs in the lungs.

Question 199

What is the primary purpose of gas exchange in the respiratory system?

Answer 199

The primary purpose is to oxygenate blood and remove carbon dioxide from the body.

Question 200

How does oxygen move from the alveoli into the blood?

Answer 200

Oxygen moves from the alveoli into the blood through the process of diffusion, moving from an area of higher concentration in the alveoli to a lower concentration in the blood.

Question 201

Why is carbon dioxide exchanged for oxygen in the lungs?

Answer 201

Carbon dioxide is exchanged for oxygen in the lungs because it is a waste product of cellular respiration and needs to be expelled from the body, while oxygen is needed for cellular respiration to produce energy.

Question 202

What role do hemoglobin molecules in red blood cells play in gas exchange?

Answer 202

Hemoglobin molecules bind to oxygen in the lungs, allowing oxygen to be transported through the blood to tissues and organs.

Hemoglobin also helps in transporting carbon dioxide back to the lungs for exhalation.

Question 203

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