Question 1
Question
Choose the sources of light.
Answer
-
Lightbulb
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Sun
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Moon
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Fire
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Water
Question 2
Question
Light belongs to the electromagnetic spectrum, a family of electromagnetic waves that travel at a speed of 300 000 km/s through space, which is a vacuum.
Question 3
Question
What is a 'photon'?
Answer
-
A tiny packet of energy that behaves similar to a wave, but also as a stream of particles.
-
A picture taken of light.
Question 4
Question
The intensity of [blank_start]electromagnetic[blank_end] radiation gets less as you move [blank_start]further[blank_end] away from the source. The intensity of the Sun's radiation decreases further away from it because it is spread over a [blank_start]larger[blank_end] area. This is why planets more distant from the Sun than the Earth are much [blank_start]cooler[blank_end] than our planet. The earth receives more of the Sun's electromagnetic radiation because the intensity of the radiation is [blank_start]greater[blank_end] closer to the Sun.
[blank_start]Intensity[blank_end] = energy transferred per second per m^2.
If you move a torch closer to a surface, its light spreads over a smaller area and becomes [blank_start]brighter[blank_end]. The total energy from the torch each second is the [blank_start]same[blank_end], but the intensity of light on the surface increases. This happens because as the distance [blank_start]doubles[blank_end], the area the energy spreads over increases four-fold, and so the intensity [blank_start]decreases[blank_end] four-fold.
Answer
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electromagnetic
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further
-
larger
-
cooler
-
greater
-
Intensity
-
brighter
-
same
-
doubles
-
decreases
Question 5
Question
X-Rays have a higher frequency than gamma rays.
Question 6
Question
Radiation workers increase their risk of exposure to X-rays and [blank_start]gamma[blank_end] rays. They can choose whether to accept this [blank_start]risk[blank_end]. The risk can be monitored using [blank_start]dosimeters[blank_end], allowing problems to be spotted before too much harm is done.
People who have mobile phone [blank_start]masts[blank_end] built near their homes have exposure to [blank_start]microwaves[blank_end] forced upon them. They tend to be less [blank_start]willing[blank_end] to accept any level of risk, and are more likely to [blank_start]overstate[blank_end] possible risks.
Answer
-
gamma
-
risk
-
dosimeters
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masts
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microwaves
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willing
-
overstate
Question 7
Question
We are surrounded by ionising radiation all the time. The risk to health is very low, but people tend to overstate it. Why?
Answer
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it is unfamiliar to us
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it is invisible and hard to detect
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effects can be long lasting
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people want to deter new projects eg. nuclear power stations
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people are unsure of risks due to lack of education
Question 8
Question
Why does a substance warm up when it absorbs radiation?
Answer
-
the energy from the absorbed radiation is transferred to thermal (heat) energy
-
the radiation excites the particles, generating thermal energy
-
Both!
Question 9
Question
The risks to living cells from microwaves are very low because microwaves have a low frequency.
Question 10
Question 11
Question
Ozone is produced when oxygen [blank_start]molecules[blank_end] absorb high energy UV radiation and react together. Ozone molecules may split into an oxygen molecule and a free oxygen [blank_start]atom[blank_end] if they absorb low energy UV radiation. In both these reactions, [blank_start]infrared[blank_end] radiation is emitted. Ozone also reacts with nitrogen, hydrogen, chlorine and bromine [blank_start]compounds[blank_end].
The absorption of [blank_start]ultraviolet[blank_end] radiation in the ozone layer reduces the amount of ultraviolet radiation reaching the Earth's [blank_start]surface[blank_end]. It also causes [blank_start]chemical[blank_end] changes in this part of the atmosphere.
Answer
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molecules
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atom
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infrared
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compounds
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ultraviolet
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surface
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chemical
Question 12
Question
Using the diagram, explain what the Greenhouse effect is and how it affects the Earth.
Answer
-
Click here when done
-
Not here
Question 13
Question
Which of the following are greenhouse gases?
Answer
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Water Vapour
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Methane
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Carbon Dioxide
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Sulphur Dioxide
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Nitrogen
Question 14
Question
What is Global Warming?
Question 15
Question
A digital signal is a type of signal that can take one of a small number of fixed (discrete) values. The values change is discrete steps, and cannot take any values in-between.
Question 16
Question
Which of these describes an analogue signal?
Answer
-
A signal that can take one of a small number of fixed (discrete) values. The values change is discrete steps, and cannot take any values in-between.
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A signal which can vary continuously.
Question 17
Question
There are several advantages of sending information using [blank_start]digital[blank_end] signals:
- different types of [blank_start]information[blank_end] can be sent at the same time
- digital signals can be sent more accurately than [blank_start]analogue[blank_end] signals
- digital information can be stored and [blank_start]processed[blank_end] by computers.
- digital signals can only take certain [blank_start]values[blank_end], so it is easy to tell which part of the signal is real and what is [blank_start]noise[blank_end] (unwanted information mixed in with the original signal).
Answer
-
noise
-
values
-
processed
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analogue
-
digital
-
information