Atoms and Astrophysics

Question 1

What three particles is an atom made up of?

Answer 1

Proton (+1), neutron (no charge) and electron (-1)

Question 2

Atomic number symbol

Answer 2

Z

Question 3

What is the atomic number?

Answer 3

The total number of protons in the nucleus of an atom. It tells us what element the atom is from.

Question 4

Mass number symbol

Answer 4

A

Question 5

What is the mass number?

Answer 5

The total number of protons and neutrons in the nucleus of an atom.

Question 6

What are particles in the nucleus called?

Answer 6

Nucleons

Question 7

What is an isotope?

Answer 7

Nuclei with the same number of protons but a different number of neutrons.

Question 8

What are the forces in the nucleus?

Answer 8

Strong nuclear force between all nucleons and repulsive force between protons.

Question 9

For a nucleus to be stable, what must happen?

Answer 9

The strong nuclear force between the nucleons must balance the repulsive force between the protons.

Question 10

What happens to the repulsion force as the number of protons increases?

Answer 10

It increases. Larger nuclei have a larger amount of neutrons to balance the repulsive force.

Question 11

What is radioactive decay?

Answer 11

Radioactive decay is when an unstable nucleus does not have the ‘right’ number of protons and neutrons and becomes more stable by emitting particles.

Question 12

What are the three types of particles that a nucleus can emit?

Answer 12

Alpha particles, beta negative particles and beta positive particles

Question 13

What is an alpha particle made up of?

Answer 13

Two protons and two neutrons joined together ( a helium nucleus)

Question 14

What is a beta negative particle made up of?

Answer 14

Electrons from the nucleus

Question 15

What is a beta positive particle made up of?

Answer 15

Positive electrons (positrons)

Question 16

What is gamma radiation?

Answer 16

Gamma radiation usually accompanies alpha or beta particles. It is part of the electromagnetic spectrum and carries energy away from the nucleus. As it is just energy it doesn’t change the number of protons/neutrons.

Question 17

What happens in alpha radiation?

Answer 17

The mass number decreases by four and the atomic number decreases by two, meaning a new element is formed.

Question 18

What happens in beta-negative radiation?

Answer 18

A neutron in the original nucleus turns into a proton. This means the mass number stays the same but the atomic number increases by one.

Question 19

What happens in beta-positive radiation?

Answer 19

A proton in the nucleus turns into a neutron. The mass number doesn’t change but the atomic number decreases by one, meaning a new element is formed.

Question 20

What is half-life?

Answer 20

The time that is taken for half of the nuclei in a radioactive sample to decay.

Question 21

As a radioactive substance emits radioactivity and decays into a more stable form, what happens to the number of particles that are given off per second?

Answer 21

It decreases

Question 22

What are protons and neutrons made up of?

Answer 22

Quarks

Question 23

What are the six flavours of quarks?

Answer 23

Up, down, top, bottom, strange and charm

Question 24

What is the charge of an up quark?

Answer 24

+2/3

Question 25

What is the charge of a down quark?

Answer 25

-1/3

Question 26

How many quarks are protons made of?

Answer 26

2 up quarks and 1 down quark

Question 27

How many quarks are neutrons made of?

Answer 27

1 up quark and 2 down quarks

Question 28

How does a neutron turn into a proton in beta-negative decay?

Answer 28

A down quark (-1/3) turns into an up quark (+2/3), changing the charge to +1

Question 29

How does a proton turn into a neutron in beta-positive decay?

Answer 29

A up quark (+2/3) turns into a down quark (-1/3), changing the charge into 0

Question 30

What is ionisation?

Answer 30

The removal of an electron from an atom or molecule. It is dangerous to living things as the ionised atoms/molecules will react differently, damaging or even killing a cell

Question 31

What type of radiation is the most ionising?

Answer 31

Alpha radiation, because of it’s greater charge from two protons

Question 32

What is the speed and range in air of an alpha particle?

Answer 32

10% of the speed of light and about 5cm range in air

Question 33

What is the speed and range in air of a beta particle?

Answer 33

90% of the speed of light and about 30cm.

Question 34

What is the speed and range in air of a gamma particle?

Answer 34

The speed of light and hundreds of metres

Question 35

What is the penetration of each particle?

Answer 35

Alpha can be stopped by paper, beta can be stopped by a few mm of aluminium and gamma is stopped by 10cm of lead.

Question 36

Why aren’t alpha particles very dangerous even though they are the most ionising?

Answer 36

They cannot penetrate the outer layer of our skin.

Question 37

How dangerous is beta radiation?

Answer 37

It can partially penetrate our skin and it’s ionising ability can cause beta burns on our skin cells.

Question 38

Why is gamma radiation the most dangerous?

Answer 38

While gamma radiation is the least ionising particle, it can easily penetrate the human body and so is the most harmful to us.

Question 39

How is radioactivity used in cancer treatment - external beam therapy?`

Answer 39

The radioactive source is outside the body and directed towards the tumour to kill cancer cells. Gamma is used as it can penetrate the body. A number of low-intensity rays are used and overlap the tumour to receive a high dosage.

Question 40

How is radioactivity used to treat cancer in brachytherapy?

Answer 40

A radioactive source is placed inside the body in or near the tumour. It’s radiation penetrates the tumour. Gamma or beta is usually used as it can penetrate the cancer tumour. The type of radiation/half life/type of cancer/where the cancer is will decide how long it stays in place.

Question 41

How is radiation used in smoke detectors?

Answer 41

Smoke detectors contain a small amount of a radioactive source which emits a stream of alpha particles, being sensed by a detector which creates a current. When the smoke comes between the source and the detector, the current is decreased and sets off the alarm. Alpha particles are used as they can’t penetrate through the alarm.

Question 42

How is radioactivity used in checking for leaks in water pipes?

Answer 42

Water supplies are contaminated with a gamma source. The contaminated water seeps into the ground where the leak is, causing a build-up of gamma. This can be detected by gamma rays. It needs to be gamma so it can penetrates the ground and road but needs a half-life of only a few days so it allows it to build up but isn’t long enough to be harmful.

Question 43

How is radioactivity used to control thickness of a piece of paper?

Answer 43

An emitter is placed on either side of a piece of paper with a detector on the other. If the thickness remains constant, the activity won’t change. If there is a change in thickness, the rollers will be triggered to squeeze harder/softer. A beta source is used as it can penetrate paper or thin aluminium. It will need a long half life.

Question 44

What is nuclear fission?

Answer 44

Nuclear fission is a reaction in which the nucleus of an atom splits into two or more smaller nuclei.

Question 45

How does nuclear fission work?

Answer 45

A neutron is fired at a larger unstable atom, which sticks to the nucleus and makes the atom even more unstable so it breaks apart into smaller nuclei.

Question 46

What is the chain reaction in nuclear fission?

Answer 46

The neutrons that are formed after the fission go on to hit other atoms, causing the chain reaction.

Question 47

What happens to the energy in nuclear fission?

Answer 47

It is used to produce electricity.

Question 48

What is nuclear fusion?

Answer 48

When smaller nuclei are joined together to make one larger nucleus.

Question 49

Give an example of nuclear fusion

Answer 49

Hydrogen nuceli in stars are joint to create a helium nucleus

Question 50

What conditions are needed for nuclear fusion?

Answer 50

High heat and pressure to push the nuclei together

Question 51

Why does nuclear fusion need high heat and temperature?

Answer 51

The positively charged nuclei repel each other. There needs to be enough energy to overcome the repulsion, and once they are close enough to each other the strong nuclear force will overcome the repulsion.

Question 52

If a electron shell is further from the nucleus, will it have more energy or less?

Answer 52

More - the further away, the more energy

Question 53

How can electrons be given energy?

Answer 53

Heat or electricity

Question 54

What is an AU?

Answer 54

An astronomical unit - the average distance between the Earth and the Sun. It is used to measure distances between planets.

Question 55

What is a light year?

Answer 55

The distance light travels in a year. Used to measure distances between stars or sizes of galaxies

Question 56

What is a parsec?

Answer 56

A larger unit than the light year. Used to describe distances to other galaxies. 1 Mpc = 1 x 10^6 pc.

Question 57

What is a star?

Answer 57

A luminous ball of heated gas held together by gravity

Question 58

What is a stellar nebula?

Answer 58

A star forms from a cloud of gas (hydrogen and helium). Gravity pulls the particles close until the gas is hot enough for a protostar to be formed. This keeps contracting due to gravity until pressure and temperature gets hot enough for fusion of hydrogen to helium to occur.

Question 59

Why is a main sequence star have a stable period?

Answer 59

Inwards gravitational force = outwards force due to fusion

Question 60

What happens when there isn’t enough hydrogen in the star to continue fusion?

Answer 60

The core contracts and temperature and pressure become high enough for helium to be fused. Layers expand to create a red giant, and continue expanding to create a super red giant.

Question 61

What happens after fusion stops in a star?

Answer 61

It dies. (Death of a star)

Question 62

Death of a star (up to 8M)

Answer 62

A planetary nebula occurs, where the stars lose their outer layers. It leaves a white dwarf behind, which cools to become a black dwarf.

Question 63

What is a white dwarf?

Answer 63

A stage after a planetary nebula where atoms are forced together by gravitational forces until repulsion between electrons stops further contraction.

Question 64

Death of a star (over 8M)

Answer 64

A supernova (short-lived explosion) occurs, once iron fusion stops. The core collapses before nuclei repel each other, blowing away outer layers. Core contracts again to form a neutron star (packed protons and electrons together to form neutrons) or black hole (gravity is so strong light cannot escape)

Question 65

What is a galaxy?

Answer 65

Groups of billions of stars held together by gravity.

Question 66

What are the three shapes of galaxies?

Answer 66

Spiral, elliptical and irregular

Question 67

Constellation

Answer 67

Stars that make patterns in the sky. The stars aren’t always close together, they just appear that way when we see them.

Question 68

What are the eight planets?

Answer 68

Mercury, venus, earth, mars, jupiter, saturn, uranus, neptune

Question 69

Rocky planets -

Answer 69

Mercury, venus, earth, mars

Question 70

Gas planets

Answer 70

Jupiter Saturn Uranus Neptune

Question 71

Mercury info -

Answer 71

Closest to sun, smallest planet, no moons or atmosphere, rotates slowly so one side is hot, other is cold

Question 72

Venus info -

Answer 72

Hottest planet, because of thick atmosphere made of sulfuric acid that traps heat. No moons but has volcanoes.

Question 73

Earth info -

Answer 73

Only known life, has water/oxygen, one moon

Question 74

Mars info -

Answer 74

Red planet due to iron oxide on surface, has largest volcano, two moons

Question 75

Jupiter info -

Answer 75

Gas planet, biggest planet, fastest spinning, has a red spot of a storm, faint rings and 60+ moons

Question 76

Saturn info -

Answer 76

Has rings made of ice and dust, over 50 moons

Question 77

Uranus info -

Answer 77

Tilted on its side, has rings, almost 30 moons

Question 78

Neptune info -

Answer 78

Faint rings, coldest planet, over 10 moons

Question 79

What is a dwarf planet?

Answer 79

Made of rock/ice. It is big enough for gravity to cause them to be round but haven’t cleared the orbit of smaller bodies.

Question 80

What is an astroid?

Answer 80

Lump of rock, found mostly in Astroid belt between mars and jupiter

Question 81

What is a comet?

Answer 81

Ice/dust substance. Takes 100s of years to orbit the Sun. starts to melt as they come close to earth, makes a tail that points away from the sun

Question 82

What is an exo planet?

Answer 82

A planet orbiting a star outside of our solar system. Difficult to see.

Question 83

What are the two methods of detecting an exoplanet?

Answer 83

Look for wobbly stars - when a planet orbits a star, the planet and star orbit their common centre of mass, making the star wobble.
Transit method = planet passes in front of the star, blocking light so the star appears less bright. Can work out the size of planet and distance from star

Question 84

What is the difference between a planet’s day and planet’s year?

Answer 84

The year is the time taken to orbit the planetary body eg sun. The day is the time taken for it to rotate fully on its axis