Which of the following best describes how electrons are arranged around the nucleus of an atom?

What happens when an electron transitions from a higher energy level to a lower energy level?

How is the energy of a photon related to an electronic transition in an atom?

If an electron transitions from n=2 to n=1, what happens to the electron's energy?

What is the process called when an electron gains enough energy to completely escape the pull of the nucleus?

Where in the electromagnetic spectrum are the photons emitted when excited mercury electrons fall back to lower energy levels?

What happens after the fluorescent coating absorbs UV photons from the mercury vapour?

What causes the tube to emit visible light?

How does the energy of a photon emitted from the fluorescent coating compare to one absorbed from the mercury vapour?

Briefly explain the key process that causes a fluorescent light tube to emit visible light.

An electron in an atom transitions from energy level n=2 to the ground state, n=1, emitting a photon of energy 10.2 eV. Calculate the frequency of the emitted photon.

If an electron absorbs a photon with an energy of 3.4 eV to move to a higher energy level, what is the frequency of this photon?

Calculate the energy difference in eV when an electron moves from energy level n=3 to n=2, knowing that the energy emitted is equivalent to a photon with a frequency of 4.57 x 10¹⁴ Hz.