Ionizing Radiation

Question 1

What is a “Coulomb” or a “Roentgen”?

Answer 1

Coulomb or Roentgen is the measure of
transfer of energy & resulting ionization.

Question 2

Who discovered X-Rays and when did this happen?

Answer 2

William Roentgen discovered X-Rays in 1895.

Question 3

Who discovered Gamma Rays and when?

Answer 3

Marie and Pierre Curie discovered Gamma Rays in the late-1800s.

Question 4

What do X-Rays and Gamma Rays have in common?

Answer 4

They are both forms of electromagnetic wave radiation
with enough energy to ionize.

Question 5

What do Radio, TV, Radar, Infra-Red, Visible Light, Ultra-Violet and Micro electromagnetic energy waves have in common?

Answer 5

They do not have enough energy to ionize atoms they encounter.

(They don’t have the energy to remove electrons from those atoms.)

Question 6

What is the Atomic Number (Z) referring to?

Answer 6

Atomic Number (Z) = the number of protons in the nucleus of an atom.

Question 7

What is the Mass Number (A) referring to?

Answer 7

Mass Number (A) = total of protons & neutrons in the nucleus of an atom.

N = (A) - (Z)

eg. Uranium 238 has a mass number (A) of 238 and an atomic number (Z) of 92, therefore the number of neutrons will be: 146

Question 8

What is Coulomb’s Law?

Answer 8

Coulomb’s Law states that this is the binding energy or attraction force which is greater the closer the electrons in orbit are to the nucleus.

This same binding energy decreases as the electron shells move away from the nucleus.

Question 9

What can X-Ray radiation produce with its ionizing effects?

Answer 9

1. can cause certain material to fluoresce
2. can produce chemical effects
3. can cause biological effects (eg. deterioration of living cells)
4. gasses bombarded by radiation can become electrical conductors (eg. ionization detectors)

Question 10

X-Rays and Gamma Ray radiation share properties that are important to know. What are they?

Answer 10

• they travel in straight lines
• they are not affected by electrical or magnetic fields
• they cannot be focussed
• they affect photographic chemical emulsions
• they damage or destroy living cells, produce burns and can produce changes to blood or blood-forming organs
• they cannot be detected by human senses

Question 11

What are some characteristics of an Alpha (⍺) radiation particle?

Answer 11

• they are large & slow moving
• they quickly give up their energy
• they cause ionizations along a short path
• they cannot penetrate a layer of dead skin
• they are most hazardous when they are ingested or inhaled

Question 12

What are some characteristics of a Beta (β) radiation particle?

Answer 12

• they are very light and fast moving
• they have an electrical charge of -1
• they are easily deflected & scatter as they pass through matter
• they can be absorbed by a few mm of aluminum
• they can travel a few hundred cm before losing energy

Question 13

What are some characteristics of Neutron (n) radiation particles?

Answer 13

• they are not normally emitted during the natural decay process
• they have the same mass as a proton
• they no electrical charge
• spontaneous emission can occur without the interaction of a photon
• they are best shielded against by water

Question 14

What is RAD or Radiation Absorbed Dose?

How is it now measured?

Answer 14

RAD is the quantity for
RAdiation Damage in living tissue.

It is now measured in Grays (Gy)
which is defined as 1 Joule of energy absorbed
per kg of tissue mass.

1 RAD = 10 mGy

1 GRAY = 100 RADs

Question 15

What is another name for REM?

Answer 15

Dose Equivalent

Question 16

What is the SI unit used for Dose Equivalent (aka REM)?

Answer 16

Sievert (Sv)

Question 17

What is a Sievert?

Answer 17

The dose from ANY radiation source that produces biological effects.

Question 18

How is the Dose Equivalent (aka REM) determined?

Answer 18

Multiply the absorbed dose (dose rate x time exposed)
by the Q Factor (Quality Factor).

Sv x Q = Dose Equivalent
(in SI units)

OR the old way…

RAD x Q = REM

Question 19

What formula is used to find the remaining activity of an isotope
or
the number of half-lives used?

Answer 19

A¹ = Original Activity

A² = Unknown Activity

n = Number of Half-Lives

Question 20

What is the Photoelectric Effect?

Hint: When photons strike, similar to the Compton Effect.

Answer 20

• Gamma ray collides with an atom’s orbiting electron,
• electron absorbs ray’s energy, ejects the electron from orbit
• a free electron is created
• a (+) atom is created

Question 21

When does Pair Production occur?

Answer 21

At 1.02 MeV or greater.

Question 22

What is the Compton Effect?

Hint: When photons strike, similar to the Photoelectric Effect.

Answer 22

• Gamma ray collides with an atom’s orbiting electron,
• electron doesn’t absorb energy but gets knocked out of orbit
• continues along with remaining gamma wave to collide with other electrons
• a free electron is created
• a (+) atom is created

Question 23

What happens when Pair Production occurs?

Answer 23

• gamma ray photon disappears
• a positron and an electron are ejected from the atom

Question 24

What happens in the case of Coherent Scatter?

Answer 24

• gamma ray photon goes through an atom without hitting anything
• low energy is released by the resulting vibrating electrons

Question 25

What is the definition of Effective Dose Limit?

Answer 25

“A dose of ionizing radiation that, to present knowledge, is not expected to cause appreciable bodily injury to a person at any time during their lifetime.”

Question 26

In Canada, who recommends the system of Effective Dose Limits?

Answer 26

ICRP

(International Commission on Radiological Protection)

Question 27

What is the WHOLE BODY Effective Dose Limit for a
pregnant or non-pregnant NEW worker
for a 5 year period?

Answer 27

100 mSv

(10 rem)

Question 28

What is the new WHOLE BODY Effective Dose Limit for
a pregnant NEW worker when she becomes
aware of her pregnancy?

Answer 28

• *4 mSv
  (0. 4 rem)**

for the balance of her pregnancy

Question 29

What is the maximum Equivalent Dose
for 1 year for a non-NEW’s
extremities (hands & feet)?

Answer 29

50 mSv

(5 rem)

Question 30

What is the maximum Equivalent Dose
for 1 year for a NEW’s
extremities (hands & feet)?

Answer 30

500 mSv

(50 rem)

Question 31

What is the maximum Equivalent Dose
for 1 year for a NEW’s
skin?

Answer 31

500 mSv

(50 rem)

Question 32

What is the maximum Equivalent Dose
for 1 year for a non-NEW’s
skin?

Answer 32

50 mSv

(5 rem)

Question 33

What is the maximum Equivalent Dose
for 1 year for a non-NEW’s
eye lenses?

Answer 33

15 mSv

(1.5 rem)

Question 34

What is the maximum Equivalent Dose
for 1 year for a NEW’s
eye lenses?

Answer 34

150 mSv

(15 rem)

Question 35

What is the WHOLE BODY Effective Dose Limit for 1 year for someone
who is not a Nuclear Energy Worker?

Answer 35

1 mSv

(0.1 rem)

Question 36

What is the WHOLE BODY Effective Dose Limit for a
pregnant or non-pregnant NEW worker
for 1 year?

Answer 36

50 mSv

(5 rem)

Question 37

Who is responsible for the initial Atomic theory?

Answer 37

Dalton (1805)