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Holds the nucleus together. Without it, the only existing atoms would be hydrogen and stars wouldn't work.
The hydrogen nucleus has a single proton. The helium nucleus has two protons and one or two neutrons.
Isotopes (of hydrogen) differ in the number of neutrons in the nucleus of the atoms.
The polar covalent bond between the hydrogen and oxygen atoms holds it together.
Yes, all atoms have the strong force in their nucleus.
If the hydrogen atoms get close enough together, and hot enough, they will eventually fuse into helium. This is what happens inside stars.
Holds the nucleus together. Without it, the only existing atoms would be hydrogen and stars wouldn't work.
The hydrogen nucleus has a single proton. The helium nucleus has two protons and one or two neutrons.
The inter nuclear forces bind the atoms and nucleus together . This force is the cause for the nucleus binded towards the atoms.
The sun produces energy by fusing hydrogen atoms into helium atoms. This is a nuclear fusion that occurs at the sun's core.
Isotopes (of hydrogen) differ in the number of neutrons in the nucleus of the atoms.
hydrogen's nucleus is electron deficient when it bonds with an electronegative atoms
The polar covalent bond between the hydrogen and oxygen atoms holds it together.
Yes, all atoms have the strong force in their nucleus.
A neutron, although this is not always the case as there are hydrogen atoms with neutrons, but hydrogen atoms are the only one which are able to not have a neutron.
Hydrogen atoms have one proton in their nuclei. When two hydrogen atoms fuse together they make one helium atom that contains two protons in its nucleus. This is called nuclear fusion, which powers the stars in the universe.
Non polar bond between the two hydrogen atoms.