Term
How is the Ptolemy model similar to the Copernicus model of the solar system? (1) |
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Definition
They both have orbits (1) |
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Term
List the order of the planets (3) |
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Definition
Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune, Pluto (3) |
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Term
800 J of electricity are produced for every 3200J of energy stored in the coal, calculate the efficiency of this process. (2) |
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Definition
800 ÷ 3200 = 0.25 (2) or 25% (2) |
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Term
A kettle uses 230 Volts and 13 amps. Calculate the power for this kettle. (2) |
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Definition
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Term
What type of current do solar panels make? (1) |
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Definition
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Term
How is the Ptolemy model differ to the Copernicus model of the solar system? (2) |
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Definition
Ptolemy model suggests every in space orbited Earth (1) whereas the Copernicus model suggests every thing orbited the sun (1) |
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Term
Why is it cheaper to use unmanned spacecrafts instead of manned? (2) |
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Definition
Don't have to send up oxygen and food (1), also don't have to have the technology to bring it back to earth (1) |
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Term
What are the risks of using nuclear radiation for hospital staff? (2) |
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Definition
Can cause mutations to cells and DNA and cause cancer (1) |
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Term
What two things determine how much it costs to run an appliance? (2) |
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Definition
The power it uses (1) and how long it is used for (1) |
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Term
What are the advantages of solar panels? (3) |
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Definition
Renewable (1) small so can be placed on most things (1) can be used to make electricity or heat water (1) |
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Term
What are the main stages in the production of electricity? (3) |
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Definition
Burn a fuel (1), use this to heat up water (1) water turns to steams (1), steam turns a turbine (1) turbine turns a generator (1) generator makes electricity (1) |
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Term
What are the main stages in the production and distribution of electricity? (2) |
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Definition
Electricity is made in a power station (1) and distributed to homes by pylons and the national grid (1) |
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Term
How can the risk of radiation be minimised for hospital staff? (2) |
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Definition
Limit exposure (1), shield radiation with lead, operate from a distance (1) |
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Term
What are the two types of current? (2) |
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Definition
Direct (1) and alternating current (1) |
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Term
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Definition
The sun heats up the land/sea (1) this causes hot air to rise (1) cold air comes in to replace this gap and this creates wind (1) |
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Term
What is passive solar heating? (3) |
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Definition
Sunlight passes through the glass and is absorbed by surfaces in the building (1). It is transferred into heat energy, which is emitted as infrared radiation (1). This is reflected back into the building by the glass (1) |
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Term
How does a generator work? (3) |
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Definition
Move a magnet (1) in between a coil of wire (1) and the wire will then generate electricity (1) |
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Term
What is the national grid? (1) |
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Definition
The power cables and lines (pylons) that transfers electricity from the PowerStation to our homes (1) |
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Term
How would you dispose of high level radioactive waste? |
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Definition
Encase it in glass, steel (lead) lined containers and bury it deep underground |
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Term
What is beta radiation stopped by? (1) |
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Definition
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Term
What are the arguments for wind turbines? (2) |
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Definition
Renewable energy (1) can be used on land and at sea (1) |
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Term
What type of current does a generator make? (1) |
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Definition
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Term
How would you dispose of low level radioactive waste? |
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Definition
Can be buried in landfill with the rest our the waste |
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Term
What are the three types of radiation? (2) |
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Definition
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Term
What is gamma radiation stopped by? (1) |
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Definition
Thick lead will stop most of the Gamma radiation but not all of it |
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Term
What are the arguments against wind turbines? (2) |
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Definition
They don't look nice (1), Noisy (1), Need a lot of them to make a lot of electricity (1) |
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Term
What fuels are available for use in a power station? (3) |
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Definition
Nuclear (uranium) (1), wood (1), biomass (1), fossil fuels (1) |
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Term
What is alpha radiation stopped by? (1) |
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Definition
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Term
Which type of radiation causes the most ionisation? (1) |
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Definition
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Term
What medical uses are there for radiation? (2) |
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Definition
Gamma can be used to treat cancer (1), can be used as a tracer in the body to see blood flow (1) |
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Term
Explain the theory of how a meteorite caused the dinosaurs to go extinct. (3) |
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Definition
As it his the ground it caused a large dust could (1) this blocked out all the sunlight (1). Plants could not photosynthesis (1) so plants died therefore the herbivore dinosaurs dies as they have nothing to eat (1) carnivores then died as they had no dinosaurs to eat |
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Term
Explain the main theory behind the formation of earth’s moon. (3) |
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Definition
Two planets (earth and another one) collided (1), one planet got broken up into lots of pieced (1). These pieces orbited earth and eventually came together to form the moon (1) |
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Term
What happens to a small sized star after it has ran out of hydrogen? (2) |
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Definition
It will expand and become a red giant (1) it will then shrink and forms a white dwarf |
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Term
What two things are needed to make a dynamo, generator? (2) |
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Definition
Magnet (1) and a coil of wire (1) |
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Term
What are comets made of? (1) |
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Definition
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Term
What shape orbit does a comet have? |
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Definition
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Term
What evidence is there for the big bang? (2) |
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Definition
Galaxies are moving away from us (1) the furthest away galaxies are moving the fastest (1), background radiation in pace (1) |
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Term
What happens to a large sized star after it has ran out of hydrogen? (2) |
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Definition
It will expand and become a supernova (1) it will then shrink and forms a black dwarf (1) and then a black hole (1) |
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Term
How can you make a dynamo, generator, more powerful? (2) |
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Definition
Move the magnet/coils faster (1), stronger magnet (1), or more coils (1) |
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Term
What are asteroids made of? |
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Definition
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Term
What happens to comets when they come close a star? (2) |
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Definition
they speed up due to the pull of gravity from the sun(1). The ice also vaporises and gives the comet a tail (1) |
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Term
Before a star is born it is made up of gas and dust, this is called? (1) |
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Definition
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Term
What is the big bang? (3) |
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Definition
All matter was in one single point and it then exploded and expanded (1) particles such as electrons, neutrons and protons stared to form (1) these they joined to together and started to make the first elements, hydrogen and helium (1) |
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Term
Not all energy from a fuel is transferred into electricity, some is lost, how? (1) |
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Definition
lost as heat through the machinery and into the atmosphere (1) |
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