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.
Each barium atom has 56 protons in its nucleus.
Protons in the nucleus are tightly bound together by the strong nuclear force, which is stronger than the electromagnetic repulsion between positively charged protons. Electrons, on the other hand, are much lighter and are located further away from each other in the electron cloud surrounding the nucleus, resulting in weaker repulsive forces between them.
protons and neutrons repel each other. The protons in the nucleus repel each other...APEX
The number of protons in the nucleus of its atoms.
Protons in the nucleus of an atom are held together by the strong nuclear force, which is stronger than the electromagnetic force that causes repulsion between positively charged particles. This strong force overcomes the electromagnetic repulsion, keeping the protons bound in the nucleus. If the balance between these forces is disrupted, such as in nuclear fission reactions, the nucleus can split apart.
Protons push away from each other because they are both positively charged. Much like the positive ends of magnets repel each other.
protons and neutrons repel each other. The protons in the nucleus repel each other...APEX
They don't touch each other, they are all blocked by neutrons in the nucleus, that is why protons don't just repel each other and the nucleus doesn't fall apart.
Each barium atom has 56 protons in its nucleus.
The protons in the nucleus repel each other by the electromagnetic force, but this is nullified by the strong force.
Protons in the nucleus are tightly bound together by the strong nuclear force, which is stronger than the electromagnetic repulsion between positively charged protons. Electrons, on the other hand, are much lighter and are located further away from each other in the electron cloud surrounding the nucleus, resulting in weaker repulsive forces between them.
Yes, protons on opposite sides of a large nucleus are attracted to each other due to the strong nuclear force.
protons and neutrons repel each other. The protons in the nucleus repel each other...APEX
Since the electrons are negatively charged and the nucleus is positively charged due to presence of protons, they attracted towards each other by the electrostatic force of attraction and thus electrons keep revolving around the nucleus and do not run away
In the nucleus of an atom, the protons repel each other due to their like charges. However, the strong force keeps protons from flying apart, keeping the protons inside the nucleus.
It causes the protons in the nucleus repel each other.
electron - electron cloud protons and neutron- nucleus