yes, they are depicted by a red subatomic particle.
1. Electrons orbit the nucleus. They are held in orbit by an electrostatic force.2. Electrons can only be in certain, permitted orbits and an electron does not emit radiation when it is in one of these orbits.3. An electron only emits radiation when it "falls" from a higher energy state to a lower state.4. The radii of the allowed orbits are also quantized - each energy state has a specific radius proportional to h/2Ï€.5.Angular momentum of electron will be mvr = nh/2Ï€,n is principle quantum no.
money and a staircase
each electron has its own "address"
Earth. It orbits the sun and the moon orbits it
Matter absorbs photons. Electrons in quantized harmonized orbits of the same energy level as the photon absorp it.
The concept of quantized energy levels, first proposed by Neils Bohr, states that electrons can only exist in certain possible energy levels, which he pictured as orbits around a nucleus since the energy of an electron is proportional to its distance from the nucleus.
They have fixed energy values.
Quantized. (Number 4 if you are using what I think you are using.)
Assuming circular orbits, Bohr proposed that the angular momentum L of an electron in its orbit is quantized, that is, it has only specific, discrete values. The value for L is given by the formula L=mevrn=nh2π(n=1,2,3,…)
Digital quantized information and analog is just information. Like the letter "i" on your screen is digital and made up of a few pixels= quantized. The letter "i" drawn on a piece of paper is not quantized = analog.
It is quantised.
yes, they are depicted by a red subatomic particle.
No. A quantized orbit means the energy is locked in as a constant. It would have to switch to a different orbit to emit energy.
Line Spectrum
Food on shelves in a refrigerator
They have fixed energy values.