The Big Bang

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GCSE Science Year 10 Flashcards on The Big Bang, created by annjb2898 on 01/06/2014.
annjb2898
Flashcards by annjb2898, updated more than 1 year ago
annjb2898
Created by annjb2898 over 10 years ago
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Question Answer
Fill the gaps: Almost all of the ........ are moving way from each other with the ....... galaxies moving fastest. Almost all of the galaxies are moving away from each other with the further galaxies moving fastest.
With the help of what new invention could Galileo observe the four moons orbiting Jupiter? With the help of the newly invented telescope, Galileo observed four moons orbiting Jupiter.
What did this confirm? This confirmed that not everything orbited the Earth.
What and whose idea did this new observation support? This supported Copernicus' idea that planets orbit the Sun.
Why did the Roman Catholic Church not support Galileo's model? The Roman Catholic Church did not support Galileo's model as they believed that the Earth was at the centre of the Universe and it was a very long time before it was accepted.
In the 17th century, Newton was working on hi theory of universal gravitation. What did this theory suggest? In the 17th century, Newton was working on his theory of universal gravitation which suggested that all bodies attract to one another.
Why do we believe that gravitational collapse is prevented today? Today, we believe that gravitational collapse is prevented because the Universe is constantly expanding as a result of the Big Bang.
What is red shift? When a source of light is moving way from an observer, its wavelength appears to increase which shifts light towards the red end of the spectrum - red shift.
When scientists look at light from the Sun, what is there? When scientists look at light from the Sun, there is a pattern of lines across the spectrum.
When is this same pattern observed? This same pattern is observed when they look at light from distant stars but it is closer to the red end of the spectrum.
What can scientists use information from red shift to work out? Scientists can use information from red shift to work out the age of the Universe.
What is a nebula? The swirling cloud of gas and dust is a nebula.
Nebula clouds are pulled together by gravity and, as the spinning ball of gas starts to get hot, it glows. What is this known as? This is a protostar.
Why can it not be seen? This protostar cannot be seen because of the dust cloud.
What force causes the star to become smaller, hotter and brighter? Gravity causes the star to become smaller, hotter and brighter.
What then happens to the star after millions of years? After millions of years, the core temperature is hot enough for nuclear fusion to take place.
Fill the gaps: As ........ nuclei join together to form helium ......, energy is released and the star continues to shine while there is enough ......... As hydrogen nuclei join together to form helium nuclei, energy is released and the star continues to shine while there is enough hydrogen.
Why do small stars shine for longer than large stars? Small stars shine for longer than large stars because they have less hydrogen but use it up at a slower rate.
At the end of a medium-sized star's life what does it become? A medium-sized star becomes a red giant.
What happens for a medium-sized star to became a red giant and then when it comes to the end of its life? While the core contracts, the outer part cools, changes colour from yellow to red and expands: - gas shells, called planetary nebula, re thrown out - the core becomes a white dwarf shining very brightly but eventually cools to become a black dwarf.
What happens to large stars when it comes to the end of its life? Large stars become red supergiants: as the core contracts and the outer part expands and, suddenly, the core collapses to form a neutron star and there is an explosion called a supernova - neutron stars are very dense - remnants from a supernova can merge to form a new star - the core of the neutron star continues to collapse, becomes even more dense and could forma black hole.
Describe the features of a black hole. A black hole has a very large mass concentrated in a small volume so it has a very large density and its large mass means it has a very strong gravitational pull.
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