Yes, because it has a charge (+). Any charged particle that vibrates produces an electromagnetic wave at the frequency determined by the number of vibrations per second. The magnitude is determined by the how far the particle goes from max. to min. on each cycle.
the neutral or no charge particle of an atom:it is located in the nucleus;has the same mass as the proton.
If a proton would be 1, an electron would be 0.000544. An electron is 1,836 times lighter than a proton. A neutron would be 1.001 as a proton is 99.86% the mass of a neutron
A neutron has approximately the same mass as a proton. Electrons have much lower mass.
Proton's have a positive charge, neutron'shave a neutral charge, electron's have a negative charge
A proton is positive, an electron is negative, and a neutron is neutral.
My answer is NO, since vibrating electric charge cannot exist independently (conservation of electric charge cannot be violated). Vibrating electric charge can only exist as part of electric charge wave.
Neutron, proton, electron.Neutron, proton, electron.Neutron, proton, electron.Neutron, proton, electron.
The beta particle will alter the electromagnetic field of the atom. An electron will add to the electromagnetic charge if emitted, and subtract from, if it is absorbed. A positron will do the opposite. The atomic nucleus will also change. an electron can convert a neutron to a proton if emitted, and a proton to a neutron if absorbed. The positron, again, will do the opposite.
the neutral or no charge particle of an atom:it is located in the nucleus;has the same mass as the proton.
These particles are: proton and neutron.
Mass no-the no of proton=no of neutron
proton
Both a neutron and a proton are made up of 3 quarks.Both a neutron and a proton are made up of 3 quarks.Both a neutron and a proton are made up of 3 quarks.Both a neutron and a proton are made up of 3 quarks.
If a proton would be 1, an electron would be 0.000544. An electron is 1,836 times lighter than a proton. A neutron would be 1.001 as a proton is 99.86% the mass of a neutron
The neutron will not produce a track in the cloud chamber. The neutron, proton, electron and positron are all types of particulate (particle) radiation, and all can do damage, but the neutron interacts much less with the air in a cloud chamber than the other particles will. This means the other particles will leave a tidy little ionized trail behind them on which condensate can form to "paint" the path of the particle. And the neutron will not.
a proton is positively charged whereas a neutron has no charge, it is neutral.
an electron is much lighter than a proton or neutron.