3.8 Space Physics

Question 1

How do stars form?

Answer 1

Stars form when enough dust and gas (mainly hydrogen and helium) from space are pulled together by gravitational attraction. Smaller masses may form and be attracted by a larger mass to become planets or even stars.

Question 2

What happens during the main sequence period of the stars life cycle?

Answer 2

During the ‘main sequence’ period of its life cycle, energy is released by the fusion of hydrogen nuclei to make
hellum nuclei in the core

Question 3

Why is a star stable?

Answer 3

because the forces within it are balanced.

Question 4

What happens in the core of the star?

Answer 4

the core (centre of a star) is where the temperature and density are greatest and where most nuclear fusion
Takes place.

Question 5

The more massive a star, the..

Answer 5

The more massive a star, the hotter its core and the heavier the nuclei it can create by fusion.

Question 6

What is a stars life cycle determined by?

Answer 6

Stars change over time; they have a life cycle. This life cycle is determined by the mass of the star.

Question 7

What does a main sequence star use to produce light and heat? And what happens when it runs out of hydrogen?

Answer 7

A main sequence star uses nuclear reactions to produce light and heat. When it runs out of hydrogen, what happens next in its life cycle depends upon its mass

Question 8

What happens to a larger star, that of greater mass than the sun?

Answer 8

A larger star will swell to become a red supergiant, in which helium nuclei fuse to form carbon, followed by further fusion that produces heavier nuclei such as nitrogen and oxygen. It expands, cools and turns red. The outer layers then blast away as a supernova is formed. The core collapses and depending upon mass, it forms either a neutron star or a black nole.

Question 9

What happens to a star with similar mass to our sun?

Answer 9

A smaller star, similar to our Sun, follows a different sequence, expanding to become a red giant. It then sheds out layers of gas, exposing the core as a white dwarf and finally cools to become a black dwarf.

Question 10

Fusion processes in stars?

Answer 10

Fusion processes in stars are the source of energy and produce all of the naturally occurring elements.

Question 11

What happens when a supernova explodes?

Answer 11

Fusion processes in stars are the source of energy and produce all of the naturally occurring elements. These elements may be distributed throughout the universe by the explosion of a massive star (supernova) at the end of its life.

Question 12

The solar system? What orbits the sun?

Answer 12

The Earth is one of eight planets orbiting the Sun (a medium sized star), which together with other smaller objects (asteroids, dwarf planets, comets) and moons orbiting several

Question 13

What is our universe made up of?

Answer 13

Our universe is made up of:
• thousands of millions of galaxies that are each made up of thousands of millions of stars
• our Sun is one of thousands of millions of stars in our galaxy called the Milky Way

Question 14

What is a moon?

Answer 14

Planets orbit the Sun and a moon is a natural satellite of a planet.

Question 15

What are artificial satellites?

Answer 15

Artificial satellites orbit the Earth and can be in geostationary or low polar orbits.

Question 16

What force does gravity provide and what does it do?

Answer 16

Gravity provides the centripetal force that keeps planets and satellites (both natural and artificial) in orbit.

Question 17

What does the force of gravity act towards and what is the effect of this?

Answer 17

The force of gravity acts towards the centre of the orbit. This unbalanced force causes acceleration towards the centre of the orbit, changing the direction of motion of the body (its velocity) but not its speed.

Question 18

How does the centripetal force result in lower orbital speeds?

Answer 18

The centripetal force due to gravity decreases as the separation of orbiting masses increases, resulting in lower orbital speeds.

Question 19

What happens at a particular separation of the masses?

Answer 19

At a particular separation of the masses, the centripetal force results in a particular orbital speed.

Question 20

How does it stay in a stable orbit?

Answer 20

To stay in a stable orbit at a particular distance, the planet or satellite moves at a particular speed.

Question 21

What happens if there is a change in orbital speed?

Answer 21

A change in orbital speed results in a change in orbital radius.

Question 22

What is the Doppler effect?

Answer 22

If a wave source is moving relative to an observer there will be a change in the observed wavelength and frequency. This is known as the Doppler effect.

Question 23

What could the wave source be?

Answer 23

the wave source could be, for example, light, sound or microwaves

Question 24

When the source moves away from the observer…

Answer 24

• when the source moves away from the observer, the observed wavelength increases and the frequency decreases

Question 25

When the source moves towards the observer..

Answer 25

when the source moves towards the observer, the observed wavelength decreases and the frequency increases.

Question 26

What is the red shift?

Answer 26

There is an observed increase in the wavelength of light from most distant galaxies. The further away the galaxies, the faster they are moving and the bigger the observed increase in wavelength. This effect is called red shift.

Question 27

How does the red shift provide evidence for the Big Bang?

Answer 27

The observed red shift suggests that space itself is expanding and supports the Big Bang model (that the universe began from a very small initial point).

Question 28

What is CMBR

Answer 28

Cosmic microwave background radiation (CMBR) is a form of electromagnetic radiation filling the universe. It comes from radiation that was present shortly after the beginning of the universe. Scientists believe that the universe began with a ‘big bang’, 14 thousand million years ago. The Big Bang theory is currently the only theory that can explain the existence of CMBR.