3.2.2.1 Particles and Radiation: The photoelectric effect

Question 1

What is the photoelectric effect?

Answer 1

When light of a high enough frequency is incident on the surface of a metal, electrons are emitted from the surface of the metal

Question 2

Explain the photoelectric effect

Answer 2

Metals contain free electrons that are able to move around in the metal. The free electrons on or near the surface of the metal absorb energy from the radiation, making them vibrate. If an electron absorbs enough energy, the bonds holding int to the metal can break and the electron can be released (called the photoelectric effect).

Question 3

What are photoelectrons?

Answer 3

Electrons that have been emitted from a metal through the photoelectric effect

Question 4

What is threshold frequency?

Answer 4

For a given metal, no photoelectrons are emitted if the radiation has a frequency below this value

Question 5

What is the range of kinetic energies of photoelectrons?

Answer 5

A variety - ranging from zero to some maximum value. The value of MAXIMUM kinetic energy increases with the frequency of the radiation.

Question 6

What is intensity?

Answer 6

The amount of energy per second hitting an area of the metal. (it does not affect the maximum kinetic energy of photoelectrons)

Question 7

What is the relationship between the number of photoelectrons emitted per second and the intensity of radiation?

Answer 7

The number of photoelectrons emitter per second is proportional to the intensity of radiation.

Question 8

How does intensity affect kinetic energy of the photoelectrons?

Answer 8

Kinetic energy increases with intensity

Question 9

What did Einstein suggest about EM waves?

Answer 9

They can only exist in discrete packets (called photons). He saw these as having a one-on-one particle like interaction with an electron in a metal surface. Each photon would transfer all its energy to one specific electron (photon model used to explain the photoelectric effect)

Question 10

Why to photoelectrons have a maximum kinetic energy?

Answer 10

The maximum amount of energy that can be transferred to an electron is the energy of one photon. The maximum amount of kinetic energy an electron can have is the energy of one photon minus the work function energy (as there is a minimum amount of energy needed to free the electron from the metal)

Question 11

What is stopping potential?

Answer 11

Photoelectrons emitted by the photoelectric effect can be made to lose their energy by doing work against an applied potential difference. The stopping potential is the p.d. needed to stop the fastest moving electrons travelling with the maximum kinetic energy. The work done by the potential difference in stopping the fastest electrons is equal to the energy they were carrying.

Question 12

How can the maximum kinetic energy be measured?

Answer 12

Using the idea of stopping potential

Question 13

What is the formula for stopping potential?

Answer 13

e(charge of electron)* (stopping potential (V) = (maximum kinetic energy (J))

Question 14

What is the formula for the energy of a photon?

Answer 14

E = hf = (hc)/lambda

Question 15

What is the work function?

Answer 15

The minimum energy needed for an electron to break its bonds and leave the metal

Question 16

What is the formula for the threshold frequency?

Answer 16

f_0 = phi/h