Protons have positive charge and electrons negative
It depends on the number of electrons in comparison with the number of protons.
Relative to a proton, the charge an an electron is -1.
Electrons carry a 1- (one negative) charge.
The relative charge of a electron is +1
1-
1-
-1
Proton's have a positive charge, neutron'shave a neutral charge, electron's have a negative charge
Relative means that it is compared to something. For example, the relative charge of a proton is +1 and it is relative to that proton. The relative charge of an electron is -1 relative to protons. That means it is exactly the same, but opposite. The relative charge of an up quark is +2/3, and that means that the charge of that quark is 2/3 of the charge of the proton. It depends what it is compared to.
There are three basic parts to an atom. These are: the electron, the proton, and the neutron.The proton is a positively charged particle, with a relative mass of one, that is located in the nucleus of the atom, along with the neutron, which has a relative mass of one, but a neutral charge. The electron has a negligible mass, and a charge of negative one, and is located around the outside of the nucleus, whizzing around in electron shells.Proton: Relative mass 1, relative charge +1, located in nucleus in centre of atomNeutron: Relative mass 1, relative charge 0, located in nucleus in centre of atomElectron: Relative mass 1/1836, relative charge -1, located in 'shells' around nucleusYou are correct but they are not all different but if you combine them you can make a ballance with all of them to make them the same charge
The only way one electron is distinguishable from another is by the difference of their relative energies. Electron's are distinguishable from other particles through various comparisons like mass, charge, spin, etc.
Because an atom has the same number of protons and electrons which both have equal but opposite charges (electron relative charge= -1, proton relative charge= +1, neutron relative charge= 0.) the atom as a whole has no electrical charge as both the electrons and the protons' charges balance each other out.
Proton's have a positive charge, neutron'shave a neutral charge, electron's have a negative charge
Negative = ] Protons have a (relative) charge of +1 Electrons have a (relative) charge of -1
electron = relative charge = 1- relative mass = 1/1840 proton = relative charge = 1+ relative mass = 1 neutron = relative charge = 0 relative mass = 1
Relative means that it is compared to something. For example, the relative charge of a proton is +1 and it is relative to that proton. The relative charge of an electron is -1 relative to protons. That means it is exactly the same, but opposite. The relative charge of an up quark is +2/3, and that means that the charge of that quark is 2/3 of the charge of the proton. It depends what it is compared to.
it is not possible to know the location of an electron but only the regionCharge= -1.60 x 10-19 C; Relative Charge=0
No, the absolute charge of proton is equal to the absolute charge of electrons. however, their relative charge is opposite in sign.
The electrical charge of an electron is -1.
Proton - Relative Atomic Mass of 1, charge of 1. Neutron - Relative atomic mass of 1, charge of 0. Electron - Negligible mass (0), charge of -1.
There are three basic parts to an atom. These are: the electron, the proton, and the neutron.The proton is a positively charged particle, with a relative mass of one, that is located in the nucleus of the atom, along with the neutron, which has a relative mass of one, but a neutral charge. The electron has a negligible mass, and a charge of negative one, and is located around the outside of the nucleus, whizzing around in electron shells.Proton: Relative mass 1, relative charge +1, located in nucleus in centre of atomNeutron: Relative mass 1, relative charge 0, located in nucleus in centre of atomElectron: Relative mass 1/1836, relative charge -1, located in 'shells' around nucleusYou are correct but they are not all different but if you combine them you can make a ballance with all of them to make them the same charge
Proton: electrical charge +1, mass = 1.672621637(83)×10−27 kg, relative mass = 1.00727646677 amuNeutron: neutral, mass = 1.67492729(28)×10−27 kg, relative mass = 1.0086649156 amuElectron: electrical charge -1, mass 9.10938215(45)×10−31 kg, relative mass 5.4857990943×10−4 amu
Well central nucleus surrounded by a cloud of negatively charge electrons.
When it gains or loses electrons due to a chemical reaction and becomes and ion (ionic bonding). Electrons have a relative charge of -1 and they surround the nucleus which is made up of protons (relative charge +1) and neutrons (relative charge 0). In an atom there are the same number of protons as there are of neutrons so an atom's relative charge is balanced out as 0 but if they lose an electron it means there are more positive charges wheras gaining an electron gives an overall charge of -1 due to the extra negative charge. Electrons can also be knocked out of orbit round the nucleus by radiation.