Each electron has its own "address."
They have fixed energy values.
Food on shelves in a refrigerator
The electromagnetic spectrum provides evidence for quantized changes in energy levels of atoms. This is seen in the emission or absorption of specific discrete frequencies of light, which is a result of electrons jumping between quantized energy levels within the atom. This phenomenon is described by quantum mechanics.
Electrons are the components of an atom that are arranged in various energy levels or orbitals. These energy levels are quantized and correspond to different distances from the nucleus, with each level accommodating a specific number of electrons based on their energy.
Energy levels where only certain values are allowed are called quantized energy levels. This concept is central to quantum mechanics, where particles like electrons can only occupy specific energy levels in an atom.
each electron has its own "address"
The property of discrete energy levels in an atom's electron shells shows that electrons are quantized. Electrons can only occupy specific energy levels within an atom, and they cannot exist between these levels. This quantization of energy levels is a fundamental aspect of quantum mechanics.
They have fixed energy values.
Quantized. (Number 4 if you are using what I think you are using.)
It has a specific value
The Bohr model
Yes, Niels Bohr proposed the idea of quantized electron orbits around the nucleus in his atomic model in 1913. He suggested that electrons can only occupy specific quantized orbits with fixed energy levels.
They have fixed energy values.
It means the charge is an integer multiple of some basic charge. If the charge consists of a certain number electrons, you can have 1 electron, 2 electrons, 3 electrons, etc., but you can't have 1.5 electrons, or pi electrons.
Yes, electricity exists in discrete amounts that equal some whole number of electrons.
Electrical charge is quantized. (negative in an electron, as an electron has exactly -1 fundamental unit of charge) The other two would be the energy levels in the atoms and the emitted energy.
The photoelectric effect is the emission of electrons when light shines on a material. This phenomenon supports the idea of light behaving as a particle (quantum) because it shows that light energy is quantized and can transfer a discrete amount of energy to electrons in the material, causing them to be emitted.