P4 Spaced learning

P4 Spaced learning

Radiation for life

SparksInsulating materialsMetals are good conductors, which means that electric charges move easily through them. Materials such as plastic, wood, glass and polythene are insulators. This means they do not allow electric charges to move through them. Some insulators can become electrically charged when they're rubbed together.

Positive and negative chargesObjects can be positively charged, negatively charged or neutral (no charge).A substance that gains electrons becomes negatively charged, while a substance that loses electrons becomes positively charged. Atoms or molecules that become charged are ions.

When a charged object comes near to another object they will either attract or repel each otherIf the charges are the same - they repelIf the charges are opposite - they attractIf one is charged and the other is not - they attract.Like charges repel, and unlike charges attract.

Problems with static electricityStatic is a nuisance when:• Dust and dirt is attracted to insulators such as TV screens

and computer monitors• Clothes made from synthetic materials often cling to

each other and to the body, especially just after they've been in a tumble drier.

Static is dangerous when:• There are flammable gases or vapours or a high

concentration of oxygen. A spark could ignite the gases and cause an explosion

• You touch something with a large electric charge on it. The charge will flow through your body causing an electric shock. This could cause burns or even stop your heart.

Safety measures - Higher tierThe chance of receiving an electric shock can also be reduced if:An object that might become charged is earthed by an earth wireIn a factory, machinery operators stand on insulating mats or wear shoes with insulating soles. Lorries containing flammable gases, liquids and powders are earthed by an earth wire before being unloaded.

Uses of electrostaticsElectrostatic precipitatorsThe electrostatic precipitator is a device used in chimneys for removing dust.

Higher TierThe metal grids in the electrostatic precipitator are given a high voltage. Depending on the design, the grids may be positively charged or negatively chargeddust particles lose electrons if the grids are positively chargeddust particles gain electrons if the grids are negatively charged.The charged dust particles then induce a charge on the earthed metal collecting plates and the dust particles are attracted to the plates.

SprayingElectrostatics can be useful for spraying liquids. For example:spraying paintspraying crops with pesticides and herbicides.Spraying paintThey work because like charges repel and unlike charges attract.The spray gun is given a charge. So droplets of point become charged:They have the same charge, so repel each other producing a fine spray.The car body part is has the opposite charge.The paint droplets are attracted to the body part, producing an even coat with little waste.

Higher Tier• The paint gun loses electrons so that it

becomes positively charged• The paint droplets lose electrons and so

also become positively charged• The object to be painted gains electrons

and so becomes negatively charged• The positively charged paint droplets

repel each other and are attracted to the negatively charged surface.

DefibrillatorsA defibrillator is a machine that can be used by paramedics to stabilise an irregular heartbeat. They work by discharging electric charge.Two paddles with insulated handles are charged from a high voltage supply. They are put in good electrical contact with the patient's chest. It is important that only the patient gets a shock:This is why the paddles have insulating handlesThe operator and any one nearby stand clear.The defibrillator passes charge through the patient to make the heart contract

Safe electricalsCurrentElectric current is a flow of electric charge. No current can flow if the circuit is broken, for example, when a switch is open

To check for a complete circuit, follow a wire coming out of the battery with your finger. You should be able to go out of the battery, through the lamp and back to the battery.

ResistanceThere is a resistance to the flow of an electric current through most conductors. Resistance is measured in ohms, Ω.The resistance in a wire increases (and the current decreases) as:The length of the wire increasesThe thickness of the wire decreases

Resistors are added into a circuit to reduce the amount of current flowing. The greater the resistance, the lower the current. A variable resistor or rheostat is a device whose resistance can be changed. It can be used to vary the amount of current in a circuit.

Resistance = voltage ÷ currentResistance is measured in ohms, ΩVoltage (potential difference) is measured in volts, VCurrent is measured in amperes (amps), A

Cables and plugsColour Wire Function

Blue Neutral Completes the circuit

Brown Live Carries the high voltage

Green and yellow stripes Earth

A safety wire to stop the appliance becoming live

FusesThe fuse breaks the circuit if a fault in an appliance causes too much current flow.

Double insulationSome appliances do not have an earth wire as they have plastic casings

Calculating power: Higher TierYou can work out power using this equation:

Power = voltage × currentPower is measured in watts, WVoltage (potential difference) is measured in volts, VCurrent is measured in amperes (amps), A

UltrasoundWavesLongitudinal wavesAll sound is produced by vibrating particles that form longitudinal waves. In this kind of wave the vibrations of the particles are in the same direction as the wave

Terms you need to know are:Amplitude - The maximum distance the particles move from their normal position. The louder a sound is, the more energy it carries and the bigger its amplitude.Wavelength - The distance between one high pressure region (compression) and the next.Frequency - The number of waves produced in one second, measured in hertz, Hz. A higher pitched sound has a higher frequency than a lower pitched sound.Compression - A region of higher pressure where particles are squashed together.Rarefaction - A region of lower pressure where particles are spread out.

UltrasoundUltrasound is the name given to sound waves that have frequencies greater than 20,000Hz. It's too high pitched for human hearing, but many animals, such as dogs, cats and bats can hear ultrasound.Ultrasound has many applications in medicine. These include:• Looking inside people by scanning the body• Breaking down kidney stones and stones elsewhere in the body• Measuring the speed of blood flow in the body

Ultrasound - Higher tierUltrasound may be used instead of x-rays for certain scans, such as scan of unborn babies. Compared to x-ray photographs, ultrasound scans:Do not damage living cellsProduce images of soft tissue

Medical images from ultrasoundUltrasound is sent into the patient's body. Some of the ultrasound is reflected at each boundary between different tissues or organs.

Breaking down kidney stonesA high powered ultrasound wave is used to break down kidney stones and other stones in the body. The stones vibrate until they shake themselves apart and are then easily passed out of the body via the urethra

What is radioisotopesThere are three main types of radiation, called alpha, beta and gamma radiation, which all have different properties.

Half-lifeThis is how long it takes for half the nuclei of a piece of radioactive material to decay. This is called the half-life of the radioactive isotope.There are two definitions of half-life, but they mean essentially the same thing. Half-life is the time taken for:• The number of nuclei of the

radioactive isotope in a sample to halve

• The count rate from a sample containing the radioactive isotope to fall to half its starting level

IonisationNuclear radiation ionises materials. Ionisation happens when:• Particles lose electrons and become

positively charged• Particles gain electrons and become

negatively charged

Type of radiation What is it?

Alpha particle Two protons and two neutrons – the same as a helium nucleus

Beta particle Fast-moving electron

Higher tier - IonsationIonisation can be harmful to living cells. Alpha particles are particularly good ionisers. They have a much larger mass, and a greater charge, than beta particles.

Alpha decayTwo protons and two neutrons are lost from a nucleus when it emits an alpha particle:The atomic mass number decreases by 4 and the atomic number decreases by 2A new element is formed that is two places lower in the periodic table than the original element.

Beta decayIn beta decay a neutron changes into a proton plus an electron. The proton stays in the nucleus, the electron leaves the atom with high energy as a beta particle.The nucleus has one more proton and one less neutron when it emits a beta particle:The atomic mass number stays the same but the atomic number increases by oneA new element is formed that is one place higher in the periodic table than the original element.

Higher Tier - Decay

Use of radioisotopeBackground radiationBackground radiation is all around us. Some of it comes from natural sources and some comes from artificial sources.Natural sources• Cosmic rays – radiation from

space• Rocks and soil – some rocks are

radioactive and give off radioactive radon gas

• Living things – plants absorb radioactive materials from the soil and these pass up the food chain

Artificial sourceshuman activity has added to background radiation by creating and using artificial sources of radiation. These include• radioactive waste from nuclear

power stations, • radioactive fallout from nuclear

weapons testing• medical x-rays.

TracersRadioisotopes are used as tracers in industry. These are used for tracking substances.:• Find leaks or blockages in underground pipes• Find the route of underground pipes• Track the dispersal of waste

Smoke detectorsSmoke detectors alert people to fires. Smoke from the fire is detected by the device, which then gives off an alarm. One type of smoke detector uses americium-241, a source of alpha radiation, to detect smoke

Dating rocksRadioactivity can be used to date rocks. Rocks often contain traces of uranium. This is unstable and eventually decays to lead, which is stable. The age of a rock can be calculated if its ratio of uranium to lead is known. The older the rock, the lower its uranium to lead ratio:• Young rocks have a high uranium to lead ratio• Very old rocks have a low uranium to lead ratio

Higher tierCarbon-14 is a radioactive isotope. It is found in the air in carbon dioxide molecules. The amount of carbon-14 in the air has stayed the same for thousands of years. There is a small amount of radioactive carbon-14 in all living organisms because it enters the food chain.Once an organism dies, it stops taking in carbon-14. The carbon-14 it contained at the time of death decays over a long period of time, and the radioactivity of the material decreases.

TreatmentX-rays, gamma rays and beta particles are all used in medicine to treat internal organs. X-rays are produced by firing electrons at a metal target and gamma rays are emitted by the nucleus of radioactive atoms.Gamma rays are used to kill cancer cells, to sterilise medical equipment and in radioactive tracers.

Uses of radiation in medicine

Sterilising equipmentGamma rays are high energy electromagnetic waves which are only stopped by thick lead. This means they can easily pass through medical equipment, such as syringes.

TracersRadioactive tracers are used to investigate a patient's body without the need for surgery. Gamma emitters beta emitters are used because gamma rays and beta particles can pass through skin, whereas alpha particles cannot.A small amount of radioactive material is put into the patient's body. The radiographer puts a detector around the body to detect any gamma rays or beta particles that pass out of the patient's body.

Tracers and treating cancer - Higher tierTracersRadioisotopes with short half-lives are chosen to make sure that the tracer does not stay radioactive in the body for long periods. The radioactive tracer is put into the body by one of the following ways:• By an injection• By ingestionTreating CancerGamma rays damage cells whether they are normal or cancerous, so gamma rays must be focused on the tumour. One way of doing this is to use a wide beam of gamma rays, but to rotate the beam around the patient, keeping the tumour at the centre. This concentrates the gamma rays on the cells that need to be killed.

Fission and FusionNuclear fission is the splitting of atomic nuclei. Nuclear power stations use the fission of uranium-235 to heat water. Fusion is the joining of atomic nuclei.

1. Fuel produces heat, which is used to boil water to make steam.

2. Steam spins a turbine.3. Turbine drives a generator and the

generator makes electricity.4. Electricity goes to the transformers to

produce the correct voltage.Uranium is a non-renewable energy resource and, like the fossil fuels, it cannot be replaced once it has all been used up.

Chain ReactionThe fission of uranium can set up a chain reaction that will keep on releasing energy as long as there are uranium nuclei present. If this chain reaction is allowed to get out of control, energy is released very quickly and the result is a nuclear bomb. Nuclear power stations are designed to keep chain reactions under control

Higher Tier - Nuclear FissionFor fission to happen, the uranium nucleus must be hit by a neutron. When this happens:The nucleus splits into smaller nuclei, Energy is released and Two or three neutrons are released.

Nuclear fusionNuclear fission is the splitting of large nuclei into smaller ones, while nuclear fusion is the joining of smaller nuclei to make larger ones. Nuclear fusion happens in stars and fusion bombs

Higher Tier – Nuclear FusionThe Sun and other stars use nuclear fusion to release energy. The sequence of nuclear fusion reactions in a star is complex but overall hydrogen nuclei join to form helium nuclei.

Cold fusionA group of scientists have claimed that they have achieved ‘cold fusion’ – nuclear fusion at ordinary temperatures and pressures. If it happens, cold fusion could be developed to provide almost limitless and cheap electricity. It would also make the international project to develop a fusion power station using high temperatures and pressures pointless.


Positive and negative chargesObjects can be positively charged, negatively charged or neutral (no charge).A substance that gains electrons becomes charged, while a substance that loses electrons becomes charged. Atoms or molecules that become charged are .

When a charged object comes near to another object they will either attract or repel each otherIf the charges are the same – If the charges are opposite – If one is charged and the other is not – Like charges.

Problems with static electricityStatic is a nuisance when:

Static is dangerous when:

Safety measures - Higher tierThe chance of receiving an electric shock can also be reduced if:


Positive and negative chargesObjects can be positively charged, negatively charged or neutral (no charge).A substance that gains electrons becomes negatively charged, while a substance that loses electrons becomes positively charged. Atoms or molecules that become charged are ions.

When a charged object comes near to another object they will either attract or repel each otherIf the charges are the same - they repelIf the charges are opposite - they attractIf one is charged and the other is not - they attract.Like charges repel, and unlike charges attract.

Problems with static electricityStatic is a nuisance when:• Dust and dirt is attracted to insulators such as TV screens

and computer monitors• Clothes made from synthetic materials often cling to

each other and to the body, especially just after they've been in a tumble drier.

Static is dangerous when:• There are flammable gases or vapours or a high

concentration of oxygen. A spark could ignite the gases and cause an explosion

• You touch something with a large electric charge on it. The charge will flow through your body causing an electric shock. This could cause burns or even stop your heart.

Safety measures - Higher tierThe chance of receiving an electric shock can also be reduced if:An object that might become charged is earthed by an earth wireIn a factory, machinery operators stand on insulating mats or wear shoes with insulating soles. Lorries containing flammable gases, liquids and powders are earthed by an earth wire before being unloaded.

Uses of electrostaticsElectrostatic precipitatorsThe electrostatic precipitator is a device used in chimneys for removing dust.

Higher TierThe metal grids in the electrostatic precipitator are given a high voltage. Depending on the design, the grids may be positively charged or negatively chargeddust particles lose electrons if the grids are positively chargeddust particles gain electrons if the grids are negatively charged.The charged dust particles then induce a charge on the earthed metal collecting plates and the dust particles are attracted to the plates.

SprayingElectrostatics can be useful for spraying liquids. For example:spraying paintspraying crops with pesticides and herbicides.Spraying paintThey work because like charges repel and unlike charges attract.The spray gun is given a charge. So droplets of point become charged:They have the same charge, so repel each other producing a fine spray.The car body part is has the opposite charge.The paint droplets are attracted to the body part, producing an even coat with little waste.

Higher Tier• The paint gun loses electrons so that it

becomes positively charged• The paint droplets lose electrons and so

also become positively charged• The object to be painted gains electrons

and so becomes negatively charged• The positively charged paint droplets

repel each other and are attracted to the negatively charged surface.

DefibrillatorsA defibrillator is a machine that can be used by paramedics to stabilise an irregular heartbeat. They work by discharging electric charge.Two paddles with insulated handles are charged from a high voltage supply. They are put in good electrical contact with the patient's chest. It is important that only the patient gets a shock:This is why the paddles have insulating handlesThe operator and any one nearby stand clear.The defibrillator passes charge through the patient to make the heart contract

Uses of electrostaticsElectrostatic precipitatorsThe electrostatic precipitator is

Higher Tier

SprayingElectrostatics can be useful for spraying liquids. For example:

Spraying paintThey work because like charges repel and unlike charges attract.

Higher Tier

DefibrillatorsA defibrillator is a machine that can be used by paramedics to stabilise an irregular heartbeat. They work by discharging electric charge.

Safe electricalsCurrentElectric current is

To check for a complete circuit, follow.

ResistanceThere is a resistance to the flow of an electric current through most conductors. Resistance is measured in ohms, Ω.

Resistors are added into a circuit to .

Resistance = voltage ÷ currentResistance is measured in Voltage (potential difference) is measured in Current is measured in






Fuses

.

Double insulation


Power = X Power is measured in watts, WVoltage (potential difference) is measured in volts, VCurrent is measured in amperes (amps), A

Safe electricalsCurrentElectric current is a flow of electric charge. No current can flow if the circuit is broken, for example, when a switch is open

To check for a complete circuit, follow a wire coming out of the battery with your finger. You should be able to go out of the battery, through the lamp and back to the battery.

ResistanceThere is a resistance to the flow of an electric current through most conductors. Resistance is measured in ohms, Ω.The resistance in a wire increases (and the current decreases) as:The length of the wire increasesThe thickness of the wire decreases

Resistors are added into a circuit to reduce the amount of current flowing. The greater the resistance, the lower the current. A variable resistor or rheostat is a device whose resistance can be changed. It can be used to vary the amount of current in a circuit.

Resistance = voltage ÷ currentResistance is measured in ohms, ΩVoltage (potential difference) is measured in volts, VCurrent is measured in amperes (amps), A






FusesThe fuse breaks the circuit if a fault in an appliance causes too much current flow.

Double insulationSome appliances do not have an earth wire as they have plastic casings


Power = voltage × currentPower is measured in watts, WVoltage (potential difference) is measured in volts, VCurrent is measured in amperes (amps), A


Terms you need to know are:Amplitude –

Wavelength –

Frequency –

Compression –

Rarefaction -

UltrasoundUltrasound is the name given to sound waves that have frequencies greater than 20,000Hz. It's too high pitched for human hearing, but many animals, such as dogs, cats and bats can hear ultrasound.Ultrasound has many applications in medicine. These include:

Ultrasound - Higher tier

Medical images from ultrasound

Breaking down kidney stones


Terms you need to know are:Amplitude - The maximum distance the particles move from their normal position. The louder a sound is, the more energy it carries and the bigger its amplitude.Wavelength - The distance between one high pressure region (compression) and the next.Frequency - The number of waves produced in one second, measured in hertz, Hz. A higher pitched sound has a higher frequency than a lower pitched sound.Compression - A region of higher pressure where particles are squashed together.Rarefaction - A region of lower pressure where particles are spread out.

UltrasoundUltrasound is the name given to sound waves that have frequencies greater than 20,000Hz. It's too high pitched for human hearing, but many animals, such as dogs, cats and bats can hear ultrasound.Ultrasound has many applications in medicine. These include:• Looking inside people by scanning the body• Breaking down kidney stones and stones elsewhere in the body• Measuring the speed of blood flow in the body

Ultrasound - Higher tierUltrasound may be used instead of x-rays for certain scans, such as scan of unborn babies. Compared to x-ray photographs, ultrasound scans:Do not damage living cellsProduce images of soft tissue

Medical images from ultrasoundUltrasound is sent into the patient's body. Some of the ultrasound is reflected at each boundary between different tissues or organs.

Breaking down kidney stonesA high powered ultrasound wave is used to break down kidney stones and other stones in the body. The stones vibrate until they shake themselves apart and are then easily passed out of the body via the urethra


There are two definitions of half-life, but they mean essentially the same thing. Half-life is the time taken for: Ionisation

Nuclear radiation ionises materials. Ionisation happens when:




Higher tier – Ionsation

Alpha decay

Beta decay

Higher Tier - Decay


Half-lifeThis is how long it takes for half the nuclei of a piece of radioactive material to decay. This is called the half-life of the radioactive isotope.There are two definitions of half-life, but they mean essentially the same thing. Half-life is the time taken for:• The number of nuclei of the

radioactive isotope in a sample to halve

• The count rate from a sample containing the radioactive isotope to fall to half its starting level

IonisationNuclear radiation ionises materials. Ionisation happens when:• Particles lose electrons and become

positively charged• Particles gain electrons and become

negatively charged




Higher tier - IonsationIonisation can be harmful to living cells. Alpha particles are particularly good ionisers. They have a much larger mass, and a greater charge, than beta particles.

Alpha decayTwo protons and two neutrons are lost from a nucleus when it emits an alpha particle:The atomic mass number decreases by 4 and the atomic number decreases by 2A new element is formed that is two places lower in the periodic table than the original element.

Beta decayIn beta decay a neutron changes into a proton plus an electron. The proton stays in the nucleus, the electron leaves the atom with high energy as a beta particle.The nucleus has one more proton and one less neutron when it emits a beta particle:The atomic mass number stays the same but the atomic number increases by oneA new element is formed that is one place higher in the periodic table than the original element.

Higher Tier - Decay

Use of radioisotopeBackground radiationBackground radiation is all around us. Some of it comes from natural sources and some comes from artificial sources.Natural sources

Artificial sourceshuman activity has added to background radiation by creating and using artificial sources of radiation. These include

Tracers

Smoke detectors

Dating rocks

Higher tier

Use of radioisotopeBackground radiationBackground radiation is all around us. Some of it comes from natural sources and some comes from artificial sources.Natural sources• Cosmic rays – radiation from

space• Rocks and soil – some rocks are

radioactive and give off radioactive radon gas

• Living things – plants absorb radioactive materials from the soil and these pass up the food chain

Artificial sourceshuman activity has added to background radiation by creating and using artificial sources of radiation. These include• radioactive waste from nuclear

power stations, • radioactive fallout from nuclear

weapons testing• medical x-rays.

TracersRadioisotopes are used as tracers in industry. These are used for tracking substances.:• Find leaks or blockages in underground pipes• Find the route of underground pipes• Track the dispersal of waste

Smoke detectorsSmoke detectors alert people to fires. Smoke from the fire is detected by the device, which then gives off an alarm. One type of smoke detector uses americium-241, a source of alpha radiation, to detect smoke

Dating rocksRadioactivity can be used to date rocks. Rocks often contain traces of uranium. This is unstable and eventually decays to lead, which is stable. The age of a rock can be calculated if its ratio of uranium to lead is known. The older the rock, the lower its uranium to lead ratio:• Young rocks have a high uranium to lead ratio• Very old rocks have a low uranium to lead ratio

Higher tierCarbon-14 is a radioactive isotope. It is found in the air in carbon dioxide molecules. The amount of carbon-14 in the air has stayed the same for thousands of years. There is a small amount of radioactive carbon-14 in all living organisms because it enters the food chain.Once an organism dies, it stops taking in carbon-14. The carbon-14 it contained at the time of death decays over a long period of time, and the radioactivity of the material decreases.



Sterilising equipment.

Tracers

Tracers and treating cancer - Higher tierTracers

Treating Cancer



Sterilising equipmentGamma rays are high energy electromagnetic waves which are only stopped by thick lead. This means they can easily pass through medical equipment, such as syringes.

TracersRadioactive tracers are used to investigate a patient's body without the need for surgery. Gamma emitters beta emitters are used because gamma rays and beta particles can pass through skin, whereas alpha particles cannot.A small amount of radioactive material is put into the patient's body. The radiographer puts a detector around the body to detect any gamma rays or beta particles that pass out of the patient's body.

Tracers and treating cancer - Higher tierTracersRadioisotopes with short half-lives are chosen to make sure that the tracer does not stay radioactive in the body for long periods. The radioactive tracer is put into the body by one of the following ways:• By an injection• By ingestionTreating CancerGamma rays damage cells whether they are normal or cancerous, so gamma rays must be focused on the tumour. One way of doing this is to use a wide beam of gamma rays, but to rotate the beam around the patient, keeping the tumour at the centre. This concentrates the gamma rays on the cells that need to be killed.


1.

2.

3.

4.

Uranium is a energy resource and, like the fossil fuels, it cannot be replaced once it has all been used up.

Chain Reaction

Higher Tier - Nuclear Fission

Nuclear fusion

Higher Tier – Nuclear Fusion



1. Fuel produces heat, which is used to boil water to make steam.

2. Steam spins a turbine.3. Turbine drives a generator and the

generator makes electricity.4. Electricity goes to the transformers to

produce the correct voltage.Uranium is a non-renewable energy resource and, like the fossil fuels, it cannot be replaced once it has all been used up.

Chain ReactionThe fission of uranium can set up a chain reaction that will keep on releasing energy as long as there are uranium nuclei present. If this chain reaction is allowed to get out of control, energy is released very quickly and the result is a nuclear bomb. Nuclear power stations are designed to keep chain reactions under control

Higher Tier - Nuclear FissionFor fission to happen, the uranium nucleus must be hit by a neutron. When this happens:The nucleus splits into smaller nuclei, Energy is released and Two or three neutrons are released.

Nuclear fusionNuclear fission is the splitting of large nuclei into smaller ones, while nuclear fusion is the joining of smaller nuclei to make larger ones. Nuclear fusion happens in stars and fusion bombs

Higher Tier – Nuclear FusionThe Sun and other stars use nuclear fusion to release energy. The sequence of nuclear fusion reactions in a star is complex but overall hydrogen nuclei join to form helium nuclei.


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