Electrons don't jump from the nucleus, because there are no electrons in the nucleus. They DO jump, or can jump from one orbit to another. If it jumps to a higher orbit, then energy must be added, and if it jumps, or falls to a lower orbit, energy is released.
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The path of a given electron's orbit around a nucleus, marked by a constant distance from the nucleus.
The name given to a particular space around the nucleus in which an electron moves is Orbital
The name given to a particular space around the nucleus in which an electron moves is Orbital
The name given to a particular space around the nucleus in which an electron moves is Orbital
"Electron cloud" is the name given to the electrons which surrounds the atomic nucleus.
its called a beta particle, but its an electron
One part of a beta- particle. The other part is an electron antineutrino
No, a delta particle is not a fast moving electron given off by a nucleus during radioactive decay. The electron described here is a beta particle, and specifically a beta minus particle. It is given off in (no surprise) beta minus decay. A link to a related question can be found below.
According to quantum theory, we can never know the exact location of an electron at any given time. If the electron is part of an atom, the best we can do is state the probability that the electron can be found within a given region about the nucleus. Often that information is good enough for our purposes.
a proton is a part of the atom, more specifically the nucleus (which also contains neutrons) and the electron is an even smaller particle that rotates around the nucleus of the atom and has a mass so minuscule even to an atom it is generally given the weight of zero.
Electrovalence is a another word for somthing that has given up its electron and become an ion.