Quantum & Nuclear Physics Flashcards
State what is meant by a photon.
It’s a quantum of energy of electromagnetic radiation.
Describe the photoelectric effect
It’s the emission of electrons from a metal surface when electromagnetic radiation is incident on electrons
With reference to the photoelectric effect, state what is meant by the threshold frequency.
The minimum frequency of electromagnetic radiation for electrons to be emitted from the surface.
State what is meant by the threshold wavelength
Longest wavelength of an electromagnetic radiation for electrons to be emitted from the surface of a metal
State what is meant by the work function energy of a metal.
The minimum amount of photon energy needed to remove an electron from the surface of a metal (with zero kinetic energy).
State three pieces of evidence provided by the photoelectric effect for a particulate nature of electromagnetic radiation.
- Energy of emitted electrons depends on frequency
- Energy of emitted electrons does not depend on intensity
- Rate of emission of electrons depends on intensity at constant frequency
- Instantaneous emission of electrons
- Increasing the frequency at constant intensity decreases the rate of emission of electrons.
Describe two phenomena associated with the photoelectric effect that cannot be explained using a wave theory of light.
- Maximum energy of electrons depends on frequency.
- Maximum energy of electrons does not depend on intensity.
Electromagnetic radiation of a single constant frequency is incident on a metal surface. This causes an electron to be emitted.
Explain why the maximum kinetic energy of the electron is independent of the intensity of the incident radiation, whereas the photoelectric current is proportional to intensity.
The kinetic energy of the electron depends on the energy of one photon, that’s determined by the frequency.
While Intensity does not determine energy of a photon but determines number of photons per unit time.
Therefore, Intensity of radiation is independent from the kinetic energy of the electron.
Describe the appearance of a visible line emission spectrum, as seen using a diffraction grating.
Colored lines with a mostly dark background.
Explain why a spectrum of light contains a number of dark lines when viewed using a diffraction grating.
Explain how the emission spectrum provides evidence for the existence of discrete energy levels for the electron in a hydrogen atom.
- Energy of a photon has a corresponding frequency
- Discrete energy changes imply discrete energy levels.
- Changes in electron energy levels emits a single photon.
- Photon energy = Difference in energy levels
- Discrete frequencies must have come from discrete energy gaps.
State what is meant by the de broglie wavelength.
The wavelength associated with a moving particle.
State what is meant by radioactive decay.
Spontaneous emission of particles from an unstable nucleus.
“Radioactive decay is spontaneous and random”
What do the terms spontaneous and random mean in that context.
Random: cannot predict when a particular nucleus will decay next,
Spontaneous: not affected by external factors
Explain what is meant by the binding energy of a nucleus.
It’s the minimum energy required to seperate the nucleons to infinity.
