It will have the opposite effect. At the same time similar. Well since opp. charges attract then when you wish to create an effect you must always remove the prot. instead of the neutron,
Really the same, but opposite at the same time.
No. The electron and proton have the same amount of charge. Its just that the electron's charge is negative and the proton's charge is positive.
In kilograms, an electron's mass is ~9 x 10^(-31). A proton's mass is ~1.7 x 10^(-27). The mass of the proton is more than 1000 times of an electron.
During electron capture, an electron and proton combine and are converted to a neutron.
the mass of an electron is actually about 1800 times lessthan a proton.
5, electron, proton, neutron, nucleus, and electron cloud.
As mass of elactron is very small as compare to proton and neutron So there will be no effect on mass if electron is removed
Neutron, proton, electron.Neutron, proton, electron.Neutron, proton, electron.Neutron, proton, electron.
A proton is bigger than electron
An electron will not decay into a proton by any means.
A proton is bigger than electron
No. The electron and proton have the same amount of charge. Its just that the electron's charge is negative and the proton's charge is positive.
An electron is 1/1,836 of a proton.
remove either a proton or electron OR add a proton or electron...
A proton and an electron have exactly opposite charges. If you take the charge of a proton as +1, then an electron has a charge of -1.
A proton has a positive charge of +1 An electron has a negative charge of -1 An neutron has no charge
This is valid only for the attraction between a proton and an electron.
In kilograms, an electron's mass is ~9 x 10^(-31). A proton's mass is ~1.7 x 10^(-27). The mass of the proton is more than 1000 times of an electron.