All Flashcards
Describe the process of electron emission in the photoelectric effect.
- Light (photons) strikes a photoactive material. 2. If the photon's frequency is above the threshold frequency, an electron absorbs the photon's energy. 3. If the photon energy is greater than the work function, the electron is emitted with kinetic energy.
What is the difference between light intensity and frequency in the photoelectric effect?
Intensity: Affects the number of emitted electrons. Frequency: Affects the kinetic energy of emitted electrons.
What happens when light with a frequency below the threshold frequency strikes a metal?
No electrons are emitted, regardless of the light's intensity.
What is the effect of increasing the frequency of incident light above the threshold frequency?
The maximum kinetic energy of the emitted electrons increases.
What is the effect of increasing the intensity of incident light above the threshold frequency?
The number of emitted electrons increases, but their maximum kinetic energy remains the same.
What happens when a material with a low work function is illuminated with light above its threshold frequency?
Electrons are easily emitted with relatively high kinetic energy.
What is the effect of using a material with a high work function in a photoelectric effect experiment?
A higher frequency of light is required to initiate electron emission.