<P> Unlike gravity or electrical forces, the nuclear force is effective only at very short distances . At greater distances, the electrostatic force dominates: the protons repel each other because they are positively charged, and like charges repel . For that reason, the protons forming the nuclei of ordinary hydrogen--for instance, in a balloon filled with hydrogen--do not combine to form helium (a process that also would require some protons to combine with electrons and become neutrons). They cannot get close enough for the nuclear force, which attracts them to each other, to become important . Only under conditions of extreme pressure and temperature (for example, within the core of a star), can such a process take place . </P> <P> There are around 92 naturally occurring elements on earth . The atoms of each element have a nucleus containing a specific number of protons (always the same number for a given element), and some number of neutrons, which is often roughly a similar number . Two atoms of the same element having different numbers of neutrons are known as isotopes of the element . Different isotopes may have different properties - for example one might be stable and another might be unstable, and gradually undergo radioactive decay to become another element . </P> <P> The hydrogen nucleus contain just one proton, Its isotope deuterium, or heavy hydrogen, contains a proton and a neutron . Helium contains two protons and two neutrons, and carbon, nitrogen and oxygen - six, seven and eight of each particle, respectively . However, a helium nucleus weighs less than the sum of the weights of the two hydrogen nuclei which combine to make it . The same is true for carbon, nitrogen and oxygen . For example, the carbon nucleus is slightly lighter than three helium nuclei, which can combine to make a carbon nucleus . This difference is known as the mass defect . </P> <Table> <Tr> <Td> </Td> <Td> This section does not cite any sources . Please help improve this section by adding citations to reliable sources . Unsourced material may be challenged and removed . (October 2014) (Learn how and when to remove this template message) </Td> </Tr> </Table>

Why is the total mass of a helium nucleus not equal to the mass of its individual parts