topic 11

Question 1

nuclear binding energy equation

Answer 1

E = mc^2

Question 2

mass deficit equation

Answer 2

mass before - mass after

Question 3

what is the binding energy

Answer 3

the energy required to separate the nucleus into its nucleons

Question 4

define one atomic mass unit

Answer 4

1/12th of the mass of a carbon-12 atom

Question 5

how much energy is released when there is a change in mass of 1u

Answer 5

931.5 MeV

Question 6

nuclear fusion

Answer 6

the joining of two small nuclei to form a larger nucleus

Question 7

is energy released or absorbed in nuclear fusion

Answer 7

energy is released because the larger nucleus has a higher binding energy per nucleon

Question 8

nuclear fission

Answer 8

a larger nucleus splits to form two smaller daughter nuclei - occurs in very unstable nuclei e.g U-235

Question 9

is energy released or absorbed in nuclear fission

Answer 9

energy is released because the smaller nuclei have a higher binding energy per nucleon

Question 10

what releases more energy - fission or fusion?

Answer 10

fusion

Question 11

binding energy per nucleon curve - fision and fusion?

Answer 11

fusion - can occur between elements up to Fe-56
fission - can occur between elements after Fe-56 up to U-235 / U-235

Question 12

conditions required for nuclear fusion to occur

Answer 12

• extremely high temperatures
• high densities of matter

Question 13

why are high temperatures needed?

Answer 13

massive amount of energy is required to overcome the electrostatic force of repulsion between the nuclei

Question 14

why are high densities needed?

Answer 14

• in order to maintain fusion
• so that there are enough colliding protons undergoing fusion

Question 15

alpha radiation
- nature
- range in air
- penetration
- ionising ability

Answer 15

• 2 protons & 2 neutrons
• 2-10 cm
• absorbed by paper
• highly ionising

Question 16

beta radiation
- nature
- range in air
- penetration
- ionising ability

Answer 16

• fast moving electron
• ~1m
• aluminium foil
• weakly

Question 17

gamma radiation
- nature
- range in air
- penetration
- ionising ability

Answer 17

• E.M. wave
• infinite range
• several metres of concrete/lead
• very weakly

Question 18

alpha decay

Answer 18

• proton number decreases by 2
• nucleon number decays by 4

Question 19

beta-minus decay

Answer 19

• proton number decreases by 1
• nucleon number stays the same

Question 20

radioactive decay

Answer 20

a random and spontaneous process