Motion of particles

Question 1

what do particle accelerators do

Answer 1

they help scientists find out more about more about the subatomic particles that the world is made up of.

Question 2

Discuss reasons for collaborative, international research into big scientific questions, including particle physics

Answer 2

it shares the cost of the project and it allows scientists to share knowledge and expertise

Question 3

Explain how for motion in a circle there must be a resultant force

Answer 3

for an object to move in a circular path there must be a force acting on it towards the centre of the path - this is called the centripetal force. in a cyclatron this centripetal force is caused by a strong magnetic field acting on the changed particles

Question 4

Explain how particle accelerators called cyclotrons cause charged particles to move in a circular or spiral path, due to a magnetic field

Answer 4

electrons are fired into the centre of one of the D-shaped enclosures, and a strong magnetic field deflects there electrons so that they follow the curved path shown. as they cross the gap form one D electrode to the other a large voltage makes them accelerate. eventually the electrons emerge at very high speed and very large kinetic energy.

Question 5

Demonstrate an understanding that certain stable elements can be bombarded with proton radiation to change them into radioactive isotopes

Answer 5

stable isotopes can be made radioactive by using a cyclotron to fire high energy particles at their nuclei. e.g. xenon gas can be bombarded with protons to make the radioactive isotope iodine-131.

Question 6

Describe the use of particle accelerators (cyclotrons) to produce radioactive isotopes for medical purposes

Answer 6

xenon gas can be bombarded with protons to make the radioactive isotope iodine-131. this iodine is used in the treatment and diagnosis of conditions affecting the thyroid land

Question 7

what happens to energy in inelastic collisions

Answer 7

the kinetic energy is greater before the collision and less after the collision. momentum is conserved in a inelastic collision

Question 8

what happens to energy in elastic collisions

Answer 8

the kinetic energy is the same before and after the collision. momentum is also conserved

Question 9

Analyse collisions in one dimension in terms of momentum and kinetic energy

Answer 9

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Question 10

Carry out calculations using momentum conservation for a two-body collision (in one dimension only)

Answer 10

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Question 11

Carry out calculations using conservation of kinetic
energy for a two-body elastic collision (in one dimension
only)

Answer 11

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Question 12

how can gamma rays be produced

Answer 12

gamma rays can be produced by the annihilation of an electron and a positron

Question 13

Apply the idea of conservation of mass energy for positron electron annihilation
a in a qualitative way (calculations involving E 5 mc2 will not be required)
b in a quantitive way using the equation E 5 mc2

Answer 13

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Question 14

Apply conservation of momentum and charge to positron

electron annihilation

Answer 14

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Question 15

Explain the use of radio isotopes in PET scanners to produce gamma rays

Answer 15

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