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No. The greater distance from the nucleus the more energy an electron has.
The electron closest to the nucleus has the lowest energy level. Since electrons are attracted to the nucleus, it takes energy to make them orbit at a greater distance (and even more energy to remove them from orbit entirely).
An electron's path around the nucleus defines it's energy level.
The energy possessed by an electron at a set of distance from the nucleus.
Energy level
No. The greater distance from the nucleus the more energy an electron has.
The electron energy level closest to the4 nucleus is around 25.4 ev. and the radius is around 7.5 nanometers for an electron around a proton.
The electron closest to the nucleus has the lowest energy level. Since electrons are attracted to the nucleus, it takes energy to make them orbit at a greater distance (and even more energy to remove them from orbit entirely).
The energy level closest to the nucleus is the 1s orbital and can hold 2 electrons as do all s orbitals. Every electron orbital has a distinct shape and number. The 1s orbital has the same shape the 2s orbital and the 3s orbital and so forth. There are other orbital shapes such as p, d, and f. Regardless of the number or level of the orbital, all p orbitals are the same shape and all d orbitals are the same shape. Orbitals differ in distance from the nucleus and the distance is indicated by the number before the orbital shape.
No, it is never to be found in the nucleus, it is in electron orbits or 'shells', each with its own the energy level.
An electron's path around the nucleus defines it's energy level.
2, 8, 18, 32 more
The energy increase near the nucleus.
The electron shell is an energy level represented as the distance of an electron from the nucleus of the atom
that is false
The energy possessed by an electron at a set of distance from the nucleus.
electron cloud