atoms and nuclear radiation (topic 4) Flashcards
alpha: two protons and two neutrons
beta: electron from the nucleus
gamma: electromagnetic radiation
gamma
beta
alpha
- radioactive source not pointed at students
- radioactive source outside the box for minimum time necessary
- eye protection
- radioactive source held away from body
cout rate = total count/time taken
?
- alpha particles cannot pass through
or - alpha particles can pass through a very thin sheet of paper / card
4500 million years
(2)
- half-life too long
- no measurable change in count rate
- (the detector) reading had gone down
- more beta (particles / radiation) is being absorbed
(in a system used to control the thickness of cardboard as it is
made)
in a system used to control the thickness of cardboard as it is made why would it not work if the beta radiation source was replaced by an alpha radiation source
alpha would not penetrate the cardboard
why is it important to warn people that a radiation source is being used
radiation damages our cells
- M
- less radiation / beta (particles) absorbed
- cannot penetrate aluminium
- gamma rays not affected (by aluminium)
(1) (2)
- (nuclei) unstable
- causes harm / damage to body / cells
- causes mutations / causes cancer
- beta
- alpha absorbed by paper
- or beta is absorbed by aluminium
- or gamma would affect all film
(2)
- two half lives
- 20 minutes
(2)
- alphas will be stopped by skin / air or do not penetrate
- betas and gammas can damage cells
(3)
- have the source and GM tube/detector fixed distances apart
- measure the initial count rate
- place a sheet of paper imbetween, record the count rate
- replace the paper with a sgeet of aluminium, record the count rate
- if the count rate is stopped by paper then the source emits alpha
- if the source is not stopped by paper but is by aluminium then the source emits beta
- (changes to) background radiation
or - (beta) decay is random
what can you say about the thickness of the cardboard being made at 10:30, explain reason for answer (3)
- thickness decreasing
- increased count rate
- (means) less (beta) radiation absorbed
explain why gamma radiation is not suitable for detecting changes to the
thickness of the cardboard (1)
- changing thickness will not change count rate (significantly)
(3)
- alpha: the card absorbs alphas but not betas
- beta: the thin metal absorbs alphas and betas
- gamma: would pass through the thin metal so a higher reading would be recorded
- nuclear reactor
- star
- nuclei are joined (not split)
(4)
- neutron
- absorbed by U nucleus
- forms a larger nucleus
- which is unstable
- larger nucleus splits into two smaller nuclei, Ba and Kr
- releasing three neutrons and energy
(atomic number is 56), would usually be at top but switched for isotopes (protons and neutrons), equals number of electrons
during beta decay, an unstable atomic nucleus emits an electron (so atomic number increases by one) and an antineutrino while converting a neutron to a proton
cars
gamma
describe how the teacher would know if the alpha, beta, or gamma radiation had been absorbed by the materials above (3)
- the teacher will record the count rate without the absorbing material
- repeat with an absorbing material between the source and the GM-tube
- if the radiation is able to penetrate through the material the count rate will stay the same or reduce slightly
- if the radiation is absorbed by the material, the count rate recorded will fall to background radiation level
- alpha particle has an atomic number of 2 and a mass number of 4 because (2 protons and 2 neutrons)
- mass number of radon = 226 - 4 = 222
- atomic number of radon = 88 - 2 = 86
state which isotope has 147 neutrons
C
- correct numbers for beta particle
- nitrogen mass number = 14
- nitrogen atomic number = 7
