year 8 science summary notes for reference
TRANSCRIPT
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Year 8 Science Notes
BiologyPlantsPlant Reproduction
Sex cells are produced by the reproductive organs. In plants, these are contained inside flowers. Sex cells are used for sexual
reproductionwhich needs two parents. The offspring from sexual reproduction are different from the parents; they are newvarieties.
The pollen grainsneed to be carried to the stigmaof another flower. They can be carried by insects or the wind. The carrying of
pollen from an anther to a stigma is called pollination.
Once on the stigma, a pollen grain grows a pollen tubewhich enters the ovulecontaining an egg cell. The nucleus from the pollen
grain then joins with the nucleus inside the egg cell. This is called fertilisation.
Photosynthesis
This is a chemical reactionand so can be written as a word equation:
water + carbon dioxide (+ light energy) glucose + oxygen
Light energy and chlorophyllare needed for photosynthesis to happen. The light energy is changed into chemical energy which is
stored in the glucose that is made.
Getting the water
Water is taken out of the soil by the roots.
Roots are branched and spread out to help them
absorbwater from a large volume of soil. They
also haveroot hair cellswhich are adaptedtotheir functionthey have a large surface area to
help them absorb water quickly. The water
flows upxylem tubes(made of hollow cells) tothe leaf.
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Water is also needed because mineral saltsare dissolved in it, which are needed to keep plants healthy. Water also stops plants
wilting and can keep their leaves cool.
Getting the carbon dioxide
Air, containing carbon dioxide, diffuses
into leaves through small holes called
stomata. Leaves are thin so that the
carbon dioxide does not need to go veryfar before reaching the cells that need it.
Photosynthesis can often be speeded up byincreasing the amount of carbon dioxide
around a plant.
Getting the light
Many leaves are wide so that they have a big surface area to trap as much sunlight as possible. Most photosynthesis happens in the
palisade cellswhich are found near the upper surface of leaves. Palisade cells are packed with chloroplasts. Chloroplasts contain
chlorophyllwhich absorbs light energy. Photosynthesis can often be speeded up by increasing the amount of light.
RespirationPlant cells release the energy stored in glucose using aerobic respiration (another chemical reaction):
glucose + oxygen carbon dioxide + water (+ energy)
All living cells need energy and so all living cells respire. Respiration happens all the time but photosynthesis can only happen
when there is light.
Uses of glucose
Glucose is a type of sugar. It is used for three things:
respiration making other substances that act as stores of energy (eg starch)
making new materials for growth.
Glucose is turned into cellulose (for cell walls), fats and proteins. To make proteins, mineral salts called nitratesare needed.
New substances made by a plant are carried around the plant in phloem tubes. New substances help to build up a plants biomass
(the mass of all the materials in the plant except water).
Humans as Organisms
Food and digestion
We need to eat a wide variety of foods to provide our bodies with all the substances that are needed. When we do this, we are said
to have a balanced diet.
Substance needed Examples Why its needed Good sources
carbohydrate starch, sugars for respiration to release energy pasta, bread
protein for growth and repair meat, beans
vitamins vitamin C for health fruits and vegetablesoranges
contain a lot vitamin C
minerals calcium for health fruits, vegetables and dairy products
milk contains a lot of calcium
fibre for health; helps to keep our
intestines clean stop them getting
blocked up (constipation)
wholemeal bread
water for health; water is important
solventin the body
We can do tests to find out which substances are in foods. For example, starch makes iodine solution go a blueblack colour.
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Nutrition informationlabels on foods tell us what the food contains. The labels also tell us how much chemical energy is stored
in the food. The amount of energy is measured inkilojoules(kJ).
Eating too much of some foods can cause problems. Too much fat may cause heart disease.
To make use of the food, our bodies need to break it up into smaller sized molecules. This is called digestion. Digestion turns
large insolublesubstances into small solubleones. The organs of the digestive systemhelp us digest food. Many of them produce
enzymes(chemicals that break up food).
To help absorb the digested food, the small intestine is covered with villi. These increase the surface area.
The digested food substances are carried around the body in the blood. The blood travels through blood vessels. Arteriescarry
blood away from the heart and veinscarry blood towards the heart. The smallest blood vessels are capillaries. Substances enter
and leave the blood through capillaries. Cells get the substances they need from the blood in capillaries.
Cells need food substances to: release energy
make new substances.
Cells use a chemical reactioncalled respirationto release energy from a sugar called glucose.
Respiration
All living cells need to respireto release energy. Energy is needed by organisms to help them move, grow and make new
substances to help them stay alive.
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Respiration normally requires oxygen and so it is called aerobic(with air) respiration. It is a series of chemical reactionswhich
can be summarised in a word equation:
glucose + oxygen carbon dioxide + water (+ energy)
Glucose and oxygen are the reactants. Carbon dioxide and water are the products. Energy is released but it is not a chemical
substance so we can either miss it out of the equation or put it in brackets.
Glucose is supplied by the digestionof carbohydrates. It is carried around the body dissolved in the plasmaof the blood. The
blood travels through blood vesselsand is pumped by the heart. The heartand the blood vessels form the circulatory system.
The oxygen is absorbed from the air by the lungs. The lungs are part of the breathing system.
The alveoligive the lungs a large surface area so that oxygen can quickly diffusefrom the air inside the lungs into the blood
contained in capillaries. The walls of the alveoli and the walls of the capillaries are only one cell thick which also makes it easy
for oxygen to diffuse into the blood. The oxygen is carried by thered blood cells.
Tissue fluidcomes out of other capillaries around the body and bathes the tissues in the body. Tissue fluid contains oxygen and
glucose. The cells take the oxygen and glucose that they need from the tissue fluid and put the carbon dioxide that is produced
back into the tissue fluid. The tissue fluid soaks back into other capillaries and the carbon dioxide dissolves in the blood plasma.
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In the lungs the dissolved carbon dioxide diffuses out of the blood and into the air in the lungs. That is why we breathe out(exhale) more carbon dioxide than we breathe in (inhale). The carbon dioxide is excretedby the lungs. Carbon dioxide can be
tested for by using limewater which turns from clear to cloudy. Oxygen diffusing into the blood and carbon dioxide diffusing out
of the blood is calledgas exchange.
Compositi on of inhaled and exhaled air
Inhaled air Exhaled air
nitrogen gas 78% 78%
oxygen gas 21% 16%
carbon dioxide gas 0.03% 4%
water vapour variable more
.When you exercise, your breathing rate(number of breaths in one minute) and your pulse rate(number of times your heart
beats in one minute) increase. This is because your cells need more oxygen and glucose for respiration.
In some diseases or when there is little air (e.g. at the top of a mountain) the body cannot get enough oxygen. People in these
situations often feel short of breath and tired. If too little oxygen gets to cells, the cells cannot release energy from foo d and so
they die.
Drugsare chemicals that affect how the body works. Cigarettes contain a drug called nicotinewhich is addictive (you feel that
you cannot do without it). The chemicals in cigarette smoke can cause diseases.
Poison in cigarette
smoke
Harm it causes
nicotine Makes arteries narrower, causes heart disease.
tar Clogs up the lungs and stops the ciliaworking, causes cancerand bronchitis.
carbon monoxide Stops red blood cells carrying so much oxygen.A balanced dietis essential to health. It is made up of the correct amounts of the following seven food substances: carbohydrates,
fats, proteins, vitamins, minerals, water and fibre.
A shortage of a particular substance can cause a specificdeficiency disease.
Eating too much of a particular substance can also cause problems. Too much fat can cause obesityand heart disease.
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ChemistryAtoms and elements
Elements
An elementis a simple substance that cannot be split into anything simpler by chemical reactions. Atoms are the smallest
particles of an element that can exist. Atomsof one element are all the same, and are different from atoms of all the other
elements.
There are over 100 different elements. All the elements are shown in the Periodic Table. Each element has achemical symbol,
which is usually one or two letters. A symbol is written with the first letter as a capital, and the second letter is small.
carbon C oxygen O
nitrogen N hydrogen H
gold Au silver Ag
copper Cu aluminium Al
Metals and non-metals
The propertiesof a substance are the words that we use to describe it, or measurements that we can make on it. Metalsand non-
metalshave different properties.
Metals Non-metals
good conductorsof heat and electricity poor conductorsof heat and electricity
shiny dull
solids with a high melting point(except for mercury) most are solids or gases
found on the left-hand side of the Periodic Table found on the right-hand side of the Periodic Table
three metals are magnetic no non-metals are magnetic
metals can burn to form alkaline oxides non-metals can burn to form acidic oxides
flexible brittle
Compounds
Elements can join together to make compounds. The name of the compound tells you the elements that are in it. Compounds made
from two elements always have a name which ends in -ide.
These elements join together to make these compounds
carbon, oxygen carbon dioxide
sodium, chlorine sodium chloride
magnesium, oxygen magnesium oxide
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A chemical formula tells you the name and number of atoms in a compound. The smallest particle of many compounds is called a
molecule. Molecules are made up of atoms. Some elements are also made of molecules. For example, a molecule of oxygen
contains two oxygen atoms joined together. The formula is O2.
Elements Compounds Mixtures
atoms of helium (He) molecules of carbon dioxide (CO2) a mixture of helium and oxygen
molecules of oxygen (O2) molecules of water (H2O) a mixture of carbon dioxide
and oxygen
a lump of carbon (C) a lump of sodium chloride (NaCl) a lump of bronze
(an alloy of copper and tin)
Chemical reactions
Compounds can react chemically by mixing them with other chemicals, or by using heat or electricity. You can tell that achemical reactionhas occurred if there is a colour change or when a gas is given off.
Most chemical reactions also involve an energy change. This is usually in the form of heat, but can also involve light being given
off, for example, in burning (combustion).
In a chemical reaction a new substance is always formed. Most chemical reactions are not easily reversed (they are irreversible).
Some chemical reactions take place just by mixing. When you make a solid by mixing two liquids, the solid is called a
precipitate.
Other chemical reactions need energy to start them off. This energy can be in the form of heat, light or electricity. When you useenergy to split up compounds they are decomposed.
We can write word equationsto show a chemical reaction. The chemicals that you start with are called the reactants. The
chemicals at the end are called the products. For example:
magnesium + oxygen magnesium oxide
reactants product
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Physics
Magnets and electromagnets
Magnetismis a non-contact force. Magnets attract magnetic materials. Iron, nickel and cobalt are magnetic materials. Mixtures,
like steel, that include a magnetic material will also be attracted to a magnet. Other metals, like aluminium, are not magnetic and
will not be attracted to a magnet. Iron oxide is a compound that is a magnetic material. It is used to make video and music
cassettes and computer discs. Magnetic materials can also block magnetism.
You can make a magnet from a piece of iron or steel.
The two ends of a bar magnet are called the north seeking poleand the south seeking poleor north pole and south pole
for short.
A north pole and a south pole attracteach other.
Two north poles or two south poles will repeleach other.
The space around a magnet where it has an effect is called its magnetic field.
This is the shape of the magnetic field of a bar magnet.
You can find the shape of the mag netic field using iron filings or using a plotting compass.
The Earth has a magnetic field. A compassis a small magnet that always points north. But magnetic materials placed near a
compass can change the direction that it points.
Magnets can be used to sort iron and aluminium cans for recycling. Only the iron cans are attracted to the magnet. Magnets can
also be used for holding fridge doors shut, and in compasses that sailors or walkers use.
A wire with electricity flowing through it has a magnetic field around it. An electromagnetis a coil of wire with an electriccurrent flowing through it.
You can make an electromagnet stronger by:
increasing the number of coils of wire
increasing the size of the current (by increasing the voltage) using an iron core.
Electromagnets can be used for lifting things. They are also used in electric bells, relays and in video and music recording.
Electromagnets are used to make bells work.
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A reed switchhas two thin pieces of iron inside it. If a magnet is held near the switch, the pieces of iron are magnetised and touch
each other. A reed switch can also be switched on using an electromagnet. Any switch that is worked by electricity is called a
relay.
Relays are used to make things safer. For example, the starter motor in a car uses a high current and needs thick wires for the
current to flow through. A relay is used in a car so that the driver does not have to touch any part of the circuit that has a high
current.
Light
Objects which create light are luminous sources. Light travels instraightlines.
Light waves travel through transparentobjects but not through opaqueobjects. Shadowsare made because light cannot travel
through opaque objects. Translucentobjects show a glow of light through them.
Transmission and absorpti on
Transparent materials let light pass straight through. We say they transmitlight. Opaque surfaces can absorblight. Black
surfaces absorb light very well and reflect very little. This is why they look so dark.
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Reflection
Light rays are scatteredby
rough surfaces, and a reflection
cannot be seen.
A planemirror is a flat mirror.
Light is reflected evenly by a
plane mirror.
Theangle of incidenceis equal to the angle of
reflection.
When light shines on to an object viewed in a
mirror, the rays are reflectedinto the eye. Theyseem to come from a position behind the mirror.
The imageis thesame sizeas the object and the
same distancefrom the mirror. In the image left is
right and right becomes left.
Refraction
When light hits something transparentit changes direction. This is called refraction.
Refraction takes place at the interfacebetween two substances. When light is transmitted through glass it slows down and bends
towards the normal. When it travels back out it speeds up again and bends away from the normal.
Colour
White light is a mixture of colours. White light can be split up using a prismto give a spectrumof seven colours (red, orange,
yellow, green, blue, indigo, violet).
The splitting of colour into a spectrum is called dispersion.
A rainbowis produced when water droplets in the air refract sunlight.
Different colours can be made by mixing light of the three primary colours(red, green and blue).
Coloured light can be made using a filter. A red filter lets red light through, but absorbsall the other colours.
We are able to see colours because objects do not reflect all the colours in light:
White objects reflect all the colours.
A red object only reflects red and all other colours are absorbed.
This idea applies to all colours except black.
Black objects absorb all colours.
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Sound and hearing
Sound vibr ations and waves
Soundis a form of energy. Sounds are made when things vibrate. The vibrations are passed on by particles in solids, liquids or
gases. Sound needs a substance to pass on the vibrations, so it can travel through solids, liquids and gases but not through a
vacuum.
The speed of sound is faster through solids than liquids, and slowest through gases. This is because the particles are very close
together in solids and so the energy is more likely to be passed from one particle to the next. The sound travels in all directions
because the particles move in all directions unless something stops them.
Sound waves can be shown on an oscilloscope.
The frequencyof a wave is the number of vibrations each second. The unit for frequency is hertz(Hz). If you listen to a sound
with a frequency of 100 Hz, one hundred waves reach your ear every second. High pitchedsounds have a high frequency, and
low pitched sounds have a low frequency.
The distance between the waves is called the wavelength. It can be measured between any point on a wave and the same point ofthe next wave. It is often more convenient to measure it between the top of one wave and the next.
Half the height of the wave is called the amplitude. The
loudnessof a sound depends on the amplitude. Louder notes
have more energy and the wave has a bigger amplitude.
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Hearing and the ear
Sound waves travel through the air and into the
ear. They cause the eardrum to vibrate. The
vibrations are passed on to the cochleain the
inner ear, where they are changed to electrical
signals called impulses. A nervetakes this
message to the brain. When the message
reaches the brain we hear the sound.
Sound can damage the ears if it is too loud or
goes on for too long. Loud sounds can damage the eardrum or the cochlea. Unpleasant sound is often called noise.
We can measure how loud a sound is by using a sound intensity meter. This is an instrument which measures the loudness of a
sound in decibels(dB). The thresholdof hearingis the quietest sound we can hear and we say this is 0 dB.
Soft materials can absorbsound. Soft materials are used insoundproofingand for making ear protectors. Double glazed
windows and soft materials like curtains help to reduce sound levels.
Sound and li ght
One major difference between lightand sound energyis that light can travel through space (a vacuum) but sound cannot.
Light also travels much faster than sound. It is nearly a million times faster. Light travels at 300 million metres per second (or 300
000 km/s) and sound travels at about 330 metres per second.
Both light waves and sound waves can be reflected. We hear a reflected sound wave as an echo.
EnergyEnergy is needed to make things happen. There are different kinds of energy, such as light energyand heat energythat we get
from the Sun, and electrical energy.
We need fuelsto provide energy in our homes, factories and for transport. A fuel is something which can release heat energy.
Fossil fuelsFossil fuels:
are made from plants and animals which were trapped in mud and rocks millions of years ago
include coal, oil and natural gas
are non-renewable(they take millions of years to form, and so our supplies will run out)
produce gases which cause pollution when they are burnt are relatively cheap to obtain
contain chemical energywhich changes to heat energy when they are burnt
originally got their energy from the Sun. The plants that became coal got their energy from the Sun, and the animals that
became oil got their energy from plants which got their energy from the Sun.
Electricity is not a fuel. It has to be generated using other energy resources.
How coal is formed.
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How oil and natural gas are formed.
Making fossil fuels last longer
We can make fossil fuels last longer by using less energy. We could walk or cycle whenever we can, or use a bus instead of usinga car. Walking and cycling would make us fitter and healthier, and there would be less pollution if there were not as many cars on
the roads. We could also save energy by keeping our houses cooler and wearing more clothes.
Renewable energy resour ces
Renewable energy resources:
include solar, wind, tidal, wave, biomass, geothermal and hydroelectricity do not produce harmful gases
can be expensive
will not run out.
Energy in food
Humans and other animals need energy to live. We get our energy from chemical energy stored in food. We need to choose our
food so that we get the right amount of energy. If we eat too much we could get fat and become unhealthy. If we do not eat
enough we will get thinner and may become ill.
The unit for measuring energy is thejoule(J). There is a lot of energy stored in food, so we usually measure the energy in foodusing kilojoules(kJ). 1kJ = 1000J.
Energy from the Sun
Most of the energy resources we use originally came from the Sun. Only geothermal energy, nuclear power and tidal power do not
depend on energy from the Sun.
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Energy continued
Nothing would happen without energy. Energy is needed to:
keep our bodies working
make machines work
heat homes, schools and offices.
Energies in action
heat energy
light energy sound energy
electrical energy kinetic (movement) energy.
Stored energy
Some energy has to be stored so that it is ready for use when we need it.
Chemical energy is stored in food, fuels and cells.
Gravitational potential energy is stored in high up things. Strain energy is stored in stretched or squashed things.
Nuclear energy is stored inside atoms.
How is energy measured?
Energy is measured injoules(J) or kilojoules(kJ). A kilojoule is 1000 joules.
Energy changes
Energy needs to be changed to be useful.
in the cells in the wires in the bulb
and bulb
An energy flow diagram.
Many energy changes take place in everyday life. Often wasted energy is produced in the forms of heator sound. Energy cannot
be made or destroyed, but can only be changed from one form to another. This is the law of conservation of energy.
Force and Motion
Speed
Speedtells us how fast something is going.
We can work out the mean (average) speed of something by using this formula:
mean speed = distance travelled time taken.
Speed can be measured in: metres per second (m/s)
kilometres per hour (km/h)
miles per hour (mph).
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We can show how things move on a distancetime graph. This graph shows Kieron walking to school.
Forces
Balanced forcesare forces which are the same size but work in opposite directions. Unbalanced forcesmake things change
speed, change shape or change direction.
If forces are balanced: a stationary object stays stationary
a moving object continues to move at the same speed.
If forces are unbalanced:
a stationary object will start to move
a moving object will change its speed or direction.
The motorbike is accelerating because the
forward force is greater than the backward
force.
The motorbike is going at a steady speed. Theforces are balanced.
A car or motorbike uses fuel to move at a steady speed because it needs a force from the engine to balance the forces of air
resistanceand friction.
The amount of air resistance on something can be reduced by giving it a smooth, streamlinedshape. The air resistance increasesas the speed increases, so cars use up more fuel per mile when they are travelling fast. Air resistance is caused by air particleshitting the moving object. The particles transfer energy to the object, which is why objects moving through air can get hot.
Mass and weigh t
The massof something is the amount of substance or matter it contains. It is measured in kilograms(kg). Weight is the force of
gravitypulling on a mass. It is a force, so it is measured in newtons(N).
Gravity
Gravity is the force of attraction between two masses. The force of gravity is stronger if:
the objects have large masses
the objects are close together.
On Earth, the gravity pulls on every kilogram of mass with a force of 10 N. Gravity is not as strong on the Moon, because theMoon has a much smaller mass than the Earth. If you went to the Moon your mass would not change, but your weight would be
less than on Earth because the Moons gravity is weaker.