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PHYSICS
Descripción
OCR 21st century physics Core science modules one, two and three.
Sin etiquetas
gcse
Mapa Mental por
anna.mat1997
, actualizado hace más de 1 año
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anna.mat1997
hace más de 10 años
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10
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Resumen del Recurso
PHYSICS
P1
The Solar System
Asteroids and comets are made of things left over from the formation of the solar system.
Comets are balls of rock dust and ice which orbit the sun
Asteroids are smallish lumps of rubble and rock
Beyond the solar system
Universe: 14,000 million years old
Sun: 5000 million years old
Earth: 5000 million years old
Speed of light: 300,000km/s
1 light year is 9,460,000,000,000km
Looking into Space
Radiation can tell us a lot about stars and galaxies
Angle of paralax
Measure brightness to find distance of stars
Sun 150 million km away from Earth
sun 4.2 light years away
Takes light 8 seconds to get to Earth
The Life of the Universe
Universe is expanding
Big bang gave galaxies the force to move away
Greater the redshift, faster it is moving away
Red shift is the wavelength of light given off by a galaxy as it moves away
The Changing Earth
Rocks provide a record for changes in the Earth
Rocks are constantly recycled
Seismic Waves
Earthquakes cause different kinds of seismic waves
P-Waves
Travel through solids and liquids
Faster than S-Waves
Longitudinal
eg. sound and ultrasound
Vibrations in the direction that the wave is travelling
S-Waves
Only travel through solids
Transverse
Vibrations at 90* to direction of trave
Change speed through different materials
Speed=frequency x wavelength
P2
Electromagnetic Radiation
1. Radio waves 2. Micro Waves 3. Infra Red 4. Visible Light 5.Ultraviolet 6. X-Rays 7. Gamma Rays
Energy transferred in packets called photons.
Gamma photons have the most energy and the highest frequency
Emitted from a source
Transmitted, reflected or absorbed
Intensity decreases as distance increases
Analogue and Digital Signals
Analogue signals vary
Digital is either on or off
Digital signals are easier to clean up after being amplified
Digital easier to process with computers
Digital can transmit several signals at once
The carbon cycle
Being upset
More CO2 released- planes, cars etc
Growing population- space made by chopping down trees
EM Radiation and the Atmosphere
Lots of infra red energy is absorbed by gases in the atmosphere
Some radiation from the sun passes through the Earths atmosphere
Ozone protects us from too much UV
Greenhouse effect helps regulate temperature
Earth absorbs EM radiation from the sun and warms the Earths surface up
Light and radio waves pass through most easily
Ozone=O3
Uses of EM Radiation
Non-ionising radiation doesn't have enough energy to charge atoms so it transfers energy and heats
Microwaves make particles vibrate,heating them up
Microwaves are strongly absorbed by water molecules so heat very quickly
Ionisation
Some EM radiation causes this
High energy EM radiation is more harmful
Dangerous if its in your cells
When a photon loses an electron
Can kill cells
Increased exposure=more damage
Cells divide over and over
P3
Electrical Energy
Power is the rate of energy transfer
Energy transferred=power x time
Power=Voltage x Current
Efficiency=energy usefully transferred/total energy supplied
Sankey Diagrams
Energyy is always conserved even if it's wasted
Thickness of arrow represents amount
Saving Energy
Home
Hot water tank jacket
Double glazing
Energy saving bulbs
draught proofing
loft insulation
Turn unused appliances off
Public transport/car share/cycling/walking
Recycling
Energy Sources and Power Stations
non renewable fuels
Fossil fuels; coal, oil, natural gas
Nuclear fuels (uranium, plutonium)
Renewable fuels
wind
waves
Tides
Hydroelectric
Solar
Biofuels
Geothermal
Nuclear Energy
Release energy by splitting atoms
Heat evaporates water, steam drives turbine, generator converts kinetic energy into electricity
Biofuels, Geothermal and Hydroelectricity
Biofuels are made from plant waste
Geothermal energy is heat from underground
Hydroelectricity uses dams to catch the rain
Requires flooding a valley
Generators and the National Grid
Moving a magnet in a wire coil induces a voltage
As you move the magnet through the coil the magnetic field in the coil changes and and induces a voltage and a current if the circuit is complete
Energy is distributed via the national grid
Distributed at a high voltage
High current loses too much heat
Comparison of energy resources
Coal
36% effiicient
8000 million units produced/year
920g CO2 per Unit
Site life- 50 years
Cost of energy-2.4-4.5p
Gas
50% efficient
5000 million units produced/year
440g-CO2 per unit
Site life- 30 years
Cost of energy- 2-3p
Nuclear
38% efficient
7000 million units produced per year
110g- CO2 per unit
Site life 25 years
Cost per unit- 4-7p
Wind
35% efficient
150 million units produced/year
0g -CO2 per unit
Site life 25 years
Cost per unit- 3-4p
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