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electrons occupy sublevels in the order of increasing energy .
If by occupy, you mean what space do they occupy since they are subatomic they can fit in anything. However we don't know if they can go inside black hole but since they are infinitely dense it seems unlikely.
Energy levels produce distinct, quantized amounts of energy that electrons can occupy in an atom. These energy levels determine the electron's distance from the nucleus and influence chemical reactivity and bonding. When electrons move between energy levels, energy is absorbed or emitted in the form of photons.
The energy level of an atom is occupied by electrons, which are negatively charged particles that orbit around the nucleus. The energy of these electrons depends on their distance from the nucleus and the specific quantum energy levels they occupy.
The electrons and energy level are inversely related. Electrons are positively charged while the energy level is negatively charged which will result into a direct effect in the energy level when electrons move. .
Electrons are in energy levels because of the principles of quantum mechanics, which dictate that electrons can only occupy specific energy levels within an atom. These energy levels are quantized and represent different distances from the nucleus. Electrons fill these energy levels in order of increasing energy, following the Aufbau principle.
electrons occupy sublevels in the order of increasing energy .
An atom's energy levels are occupied by electrons. Electrons occupy the energy levels, or electron shells, in order of increasing energy. The lowest energy level is filled first before electrons move to higher energy levels.
energy levels
They have more speed.
If by occupy, you mean what space do they occupy since they are subatomic they can fit in anything. However we don't know if they can go inside black hole but since they are infinitely dense it seems unlikely.
Electrons can occupy specific energy levels around an atomic nucleus, often referred to as electron shells or orbitals. These energy levels are quantized, meaning electrons can occupy only discrete distances from the nucleus. The most common orbits include the s, p, d, and f orbitals, which can each hold a specific number of electrons.
energy levels
It means that electrons (for example) can only occupy certain energy levels.
Niels Bohr was the one who stated that first.
Energy levels produce distinct, quantized amounts of energy that electrons can occupy in an atom. These energy levels determine the electron's distance from the nucleus and influence chemical reactivity and bonding. When electrons move between energy levels, energy is absorbed or emitted in the form of photons.
The principle is: electrons fill first the lower energy levels.