Positive.
An electron? No, the Anti-proton is the negative charged opposite of the positively charged Proton.
A proton has a positive charge.
Proton's have a positive charge, neutron'shave a neutral charge, electron's have a negative charge
With relation to an electron the proton has a charge of -1, since the proton's charge is opposite of the electron's. However, the common notation of charge is relative to a proton's- therefore, it is more accurate to leave things in terms of a proton's charge. In terms of proton charge, a proton has a charge of +1.
The force experienced by a proton in an electric field will be the same as for any other charged particle with the same charge, because the force depends on the charge of the particle and the electric field strength. The charge of a proton is the same as the charge of an electron, just opposite in sign. The mass of the proton being 1836 times greater than the mass of an electron will not affect the force experienced by the proton in the electric field.
positive charge
No, a proton's charge is +1.
An electron? No, the Anti-proton is the negative charged opposite of the positively charged Proton.
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.
A proton has a positive charge.
Yes, a proton has a positive charge.
Proton . . . positive charge Electron . . . negative charge Neutron . . . no charge
By definition, a proton is positive, so a proton will always have a positive charge.
A proton has a positive charge.
Proton's have a positive charge, neutron'shave a neutral charge, electron's have a negative charge
a proton has a positive charge
With relation to an electron the proton has a charge of -1, since the proton's charge is opposite of the electron's. However, the common notation of charge is relative to a proton's- therefore, it is more accurate to leave things in terms of a proton's charge. In terms of proton charge, a proton has a charge of +1.