Why do protons push away from each other in the nucleus?

Answer 1

Well, isn't that just a happy little question! Protons in the nucleus carry positive charges, and like charges repel each other, just like two little magnets pushing away. It's all about finding balance and harmony in the atomic world, creating a space where each proton can peacefully coexist.

Answer 2

Oh, dude, it's like this - protons are positively charged particles, right? And you know how positive charges repel each other? So, it's just basic physics - like repels like. It's like when you try to put two magnets together the wrong way, they just push apart. So, yeah, protons in the nucleus are just like, "Nope, I'm not getting too cozy with you, buddy."

Answer 3

Protons push away from each other because they are both positively charged. Much like the positive ends of magnets repel each other. Fortunately, protons are held together by quarks, leptons and gluons.

Answer 4

Yes; any particle that is contained in an atom (proton, neutron, electron; these are referred to as p,n,e) can leave. Protons and neutrons will only leave an atom if the total energy of the nucleus is greater than the energy of its greatest stable energy. Generally speaking, this means that protons and neutrons have to be able to attract one another via the Strong Force by a greater amount than the repulsive force experienced by protons that are all the same charge. Neutrons act as buffers where they increase the distance between protons and thus lower the repulsive force of protons. If the nucleus is too big for the Strong Force to take effect or if the repulsive electromagnetic force is stronger than the Strong Force, then the nucleus will decay and the atom will break apart into different atoms whose net energy and particle count will be the same as the original atom. Another way to break up the nucleus is to (rather violently) insert another atom into the nucleus via a particle accelerator, which may force a decay.

Electrons that leave are much simpler. In a process known as ionization, all that is necessary for electrons to leave is for the electrons to have a greater energy than their attraction to the nucleus. This attraction is more than just the electromagnetic attraction (remember that like charges repel and different charges attract) and requires an understanding of quantum mechanics, which is outside of the scope of this question.

In short: Yes, electrons can leave. The previously neutral atom is known as a cation, which will have a positive electric charge equal to the missing number of expected electrons.

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Answer 5

Protons carry positive charge, and like charges repel each other according to the electromagnetic force. This force causes protons within the nucleus to push away from each other, resulting in a balance between the repulsive electromagnetic force and the strong nuclear force that holds the nucleus together.

Answer 6

decrease because less energy is needed to push them apart than is needed to put them together

Answer 7

No they cannot its impossible