P2.6 Radioactivity

Question 1

When was the plum pudding model invented?

Answer 1

1987

Question 2

What charge does the pudding represent in the plum pudding model?

Answer 2

Positive

Question 3

What charge do the plums represent in the plum pudding model?

Answer 3

Negative

Question 4

What do most particles do when faced with a sheet of foil? What does this mean?

Answer 4

Most go whizzing straight through the foil undeflected

This means most of an atom is empty space

Question 5

What do some alpha particles do when faced with foil? What do this mean?

Answer 5

Some are slightly defected

This means that there’s concentrated positive mass somewhere in the atom

Question 6

What do a very small amount of particles do when faced with foil? What does this mean?

Answer 6

Deflected backwards
This means that the concentrated mass is minuscule compared to the size of the rest of the atom, but contains most of the mass

Question 7

What’s the composition of alpha radiation?

Answer 7

2 protons and 2 neutrons

Biggest mass of all radiation

Question 8

What’s the charge of alpha radiation?

Answer 8

+2

Question 9

What’s the penetration of alpha radiation?

Answer 9

Stopped by a few cm of air or by a piece of paper

Question 10

What is an alpha particle also referred to as?

Answer 10

A helium nucleus

Question 11

What’s the composition of a beta particle?

Answer 11

It’s an electron

In a nucleus a neutron turns into a proton inside and gives off an electron (beta)

Question 12

What’s the charge of a beta particle?

Answer 12

-1

Question 13

What’s the penetration of beta radiation?

Answer 13

Can be stopped by a thin sheet of aluminium

Can get through your skin

Question 14

What’s the composition of gamma?

Answer 14

High energy electromagnetic wave

Question 15

What’s the charge of gamma?

Answer 15

0

Question 16

What’s the penetration of gamma?

Answer 16

Can only be stopped by a very thick piece of lead or concrete

Question 17

How fast is gamma?

Answer 17

Travels at the speed of light like all EM waves

3x10 to the 8 m/s

Question 18

Radioactivity is a ________ process.

Answer 18

Random

Question 19

How are alpha, beta and gamma deflected at electric fields?

Answer 19

Alpha and beta particles are deflected I’m opposite direction due to their opposite charges.
Due to their much larger mass alpha particles are deflected much less than beta.
Gamma rays are not deflected because they are not charged.

Question 20

How are alpha, beta and gamma deflected at magnetic fields?

Answer 20

Alpha and beta particles are deflected in opposite directions due to their opposite charges.
Due to their much larger mass alpha particles are deflected far less than beta.
Gamma rays are not deflected because they’re not charged.

Question 21

What’s ionisation?

Answer 21

It occurs when an atom loses or gains one or more electrons.

When an atom loses an electron, it becomes a positive ion. When an atom gains an electron, it becomes a negative ion.

Question 22

How ionising is alpha? Why?

Answer 22

Strongly ionising

Because it has a very large mass

Question 23

How ionising is beta?

Answer 23

Moderately ionising

Question 24

How ionising is gamma?

Answer 24

Weakly ionising

Question 25

What’s an isotope of an element?

Answer 25

It has the same number of protons but a different number of neutrons.

Question 26

Where does radiation come from?

Answer 26

The nucleus

Question 27

What happens to the atomic number and mass number during alpha decay?

Answer 27

Atomic number: down by 2

Mass number: down by 4

Question 28

What happens to the atomic number and mass number during beta decay?

Answer 28

Atomic no. Up by 1

Mass no. No change

Question 29

What happens to the atomic number and mass number during gamma decay?

Answer 29

Atomic number: no change

Mass number: no change

Question 30

Practise alpha, beta and gamma decay!!!

03/03/17

Answer 30

👏🏽👏🏽👏🏽👏🏽☺️

Question 31

What is a substance of it is radioactive?

Answer 31

Unstable

Question 32

The nucleus is more _______ after emitting some radiation and this is ___________.

Answer 32

Stable

Radioactive decay

Question 33

Radioactive decay is not affected by what?

Answer 33

Temperature or any other physical conditions
Eg. If you put radiation in a cool area it WON’T slow down
ITS THE SAME IN ALL PHYSICAL CONDITIONS

Question 34

What radiations are dangerous outside the body?

Answer 34

Beta and gamma because they can get through skin

Alpha can’t get through skin

Question 35

What radiation is dangerous inside the body?

Answer 35

Alpha because it can’t get through your skin so once you’ve consumed it, it can’t get out and it’s the most ionising.

Question 36

What radiations are the most, least and medium penetrating?

Answer 36

Alpha - least
Beta - medium
Gamma - most

Question 37

What radiations have the longest, shortest, medium range of radiation?

Answer 37

Alpha - shortest
Beta - medium
Gamma - longest

Question 38

Which radiations are affected by a magnetic field?

Answer 38

Alpha - YES
Beta - YES
Gamma - NO

Question 39

What safety precautions do you have to take when dealing with radiation?

Answer 39

Keep exposure times as short as possible
Monitor exposure with a film dose badge
Label radioactivity sources clearly
Store radioactive sources in shielded containers (made of lead)
Wear protective clothing
Use tongs or a robotic arm to handle radioactive materials

Question 40

What’s half-life?

Answer 40

The time it takes the number of radioactive nuclei in a sample to decrease by 50%

Question 41

How would you calculate half life on a graph?

Answer 41

Half the counts of the y axis and then go along to the curve and down to the time.

Question 42

At 10am a radioactive sample contains 80g of a radioactive isotope. If the isotope has a half life of 20 mins, calculate the mass of the isotope remaining at 11am.

Answer 42

1hour = 3 half lives
Half 80 three times
80/2 = 40
40/2 = 20
20/2 = 10

= 10g

Question 43

Calculate the half life of the radioactive isotope in a source of its mass decreases fro, 24g to 6g over a period of 60 days.

Answer 43

24 X 0.5 = 12
12 X 0.5 = 6
2 half lives in 60 days
Therefore 1 half life is 30 days

Question 44

How does smoke alarms used radiation?

Answer 44

They contains a weak source of alpha radiation. The alpha particles ionise the air and create a current. If there is smoke present, it blocks the ions and so there is less current and then the alarm sounds. Beta and gamma aren’t affected by smoke so alpha needs to be used. A long half life source must be used or else a drop in current would set off the alarm.

Question 45

How do paper mills use radiation?

Answer 45

Beta radiation monitors and controls the thickness in paper. The thicker the material, the more radiation absorbed and less radiation reaches the detector. It then sends signals to the equipment that adjusts the thickness of the material. Beta is used because alpha doesn’t go through paper and all of gamma would go through. A long half life source must be used or else a false thickness increase will be detected as the activity of the source decreases.

Question 46

How do people use radiation to detect leaks in pipes?

Answer 46

A radioactive tracer is added to a fluid. Where a leak occurs will be shown by an increase in the count rate detected. Beta radiation is used. Alpha wouldn’t be able to pass through the ground. Gamma wouldn’t be able to detect a leak. The source needs a long enough half life to remain reasonably active over a period of investigation but not too long that it remains in the environment.

Question 47

How is radiation used in radiotherapy?

Answer 47

Cancer cells are targeted with gamma radiation which kills them. But it can be dangerous because radiation can’t tell healthy and unhealthy cells apart.

Question 48

How is radiation used in sterilisation?

Answer 48

Gamma radiation kills microorganisms on objects which means plastic can be cleaned with radiation rather than heating it.

Question 49

How is radiation used in food?

Answer 49

Gamma radiation kills the microorganisms in your food. All rays go straight through so is harmless. This also increase shelf life.

Question 50

How is radiation used in medical tracers in diagnosis?

Answer 50

A gamma camera can show where a patient has absorbed a tiny amount of radioactive substance.

Question 51

Overall, how is alpha, beta and gamma radiation used?

Answer 51

Alpha - smoke alarms
Beta - paper mills and leak detection in pipes
Gamma - sterilising medical equipment, radiotherapy, killing bacteria in food

Question 52

What’s radioactive dating?

Answer 52

Carbon-14 is a radioactive isotope of carbon. We all have a certain amount in us. You can find out how old someone is by knowing the amount of Carbon-14 in them. The older you are, the less you have.

Question 53

What’s used to date fossils?

Answer 53

Uranium

Question 54

A fresh bone gives a radioactive count of 170 counts per minute. Another ancient bone of the same mass gives a count rate of 50 counts per minute. The background count is 10 counts per minute. How old is the bone? Carbon-14 has a half life of 5600 years

Answer 54

170-10 = 160
50-10 = 40
The count rate of carbon-14 has fallen to 1/4 of its original value 160/2=80 80/2=40
2 half lives
5600 X 2 = 11200 years old

Question 55

What’s the half life of carbon-14?

Answer 55

5600 years

Question 56

What are the natural background radiations? What percentage is that?

Answer 56

Radon gas
Food
Cosmic rays
Gamma rays
87%

Question 57

What background radiations are man made? What percentage are they?

Answer 57

Medical
Nuclear power
13%

Question 58

How many counts per minute would you have in earths atmosphere?

Answer 58

30-40 counts per minute