In chemistry, the term "relative charge" refers to the charge of an ion relative to a standard reference point, often the charge of a proton or electron. It is used to compare the charge of different ions based on the number of electrons gained, lost, or shared during a chemical reaction.
The proton has a positive charge, the neutron has no charge (neutral), and the electron has a negative charge. The proton has a charge of +1, the neutron has a charge of 0, and the electron has a charge of -1.
The relative charge of an electron is -1, meaning it has 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 electron has a charge opposite to the proton's charge. Protons have a positive charge, while electrons have a negative charge.
In chemistry, the term "relative charge" refers to the charge of an ion relative to a standard reference point, often the charge of a proton or electron. It is used to compare the charge of different ions based on the number of electrons gained, lost, or shared during a chemical reaction.
It will be +4 relative to a proton's charge.
The proton has a positive charge, the neutron has no charge (neutral), and the electron has a negative charge. The proton has a charge of +1, the neutron has a charge of 0, and the electron has a charge of -1.
Yes, a proton has a positive charge of +1, while an electron has a negative charge of -1. Therefore, a proton has a bigger charge magnitude than an electron.
electron = relative charge = 1- relative mass = 1/1840 proton = relative charge = 1+ relative mass = 1 neutron = relative charge = 0 relative mass = 1
the charge is when u hook at a tree to a mouse and it will charge
Neutron
The Neutron
The term nucleon is applied to any particle that makes up an atomic nucleus. That means it can be applied to either a proton or a neutron (but only when we are talking about them as the components of an atomic nucleus). The nucleon with the positive charge is the proton. You'll recall that the neutron is a neutral particle; it has no charge.
The relative charge of an electron is -1, meaning it has a negative charge.
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.
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.