Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.
Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.
Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.
Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.
Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.
A shoot-range force, called the strong nuclear force, binds protons toghether
because of a nuclear force that overcomes the force of repulsion that protons have for each other.
That's because gold has 79 protons and mercury has 80 protons. The elements in the periodic table is arranged by the proton count.
as electrons have same charge ,they repel each other when they come near
Electricity, this may be electrons in a direct current. In an alternating current the electrons stay where they are and it is only the energy that moves between electrons.
They would repel each other as they are both negativly charged.
Atomic Number identifies the following:No. of protons (same as the atomic number)No. of electrons (mostly same as no. of protons)Approximate Atomic Mass (No. of neutrons are roughly equal to or near to no. of protons)
That's because gold has 79 protons and mercury has 80 protons. The elements in the periodic table is arranged by the proton count.
Electrons have a negative charge, so they will repel away from one another. Electrons are attracted only to protons or other positive charges. if your question is whether,a negative charge attracts other, it is possible,if you place a charge of less magnitude near a charge of greater magnitude, one can attract other.this is due to the fact that, induction charges are set up in the lesser magnitude charge due to the greater magnitude charge.
The atom's center which is a cluster of protons and neutrons. Protons have a positive electric charge and neutrons have no electric charge. The atom's nucleus is held together by a strong force, which keeps positively charged protons from repelling each other. It surrounded by a cloud of electrons moving near the speed of the light. The electrons have a negative charge that attracts them to the protons and they live in shells representing different energy levels.Hope this help you :D
The atom's center which is a cluster of protons and neutrons. Protons have a positive electric charge and neutrons have no electric charge. The atom's nucleus is held together by a strong force, which keeps positively charged protons from repelling each other. It surrounded by a cloud of electrons moving near the speed of the light. The electrons have a negative charge that attracts them to the protons and they live in shells representing different energy levels.Hope this help you :D
as electrons have same charge ,they repel each other when they come near
Electricity, this may be electrons in a direct current. In an alternating current the electrons stay where they are and it is only the energy that moves between electrons.
They would repel each other as they are both negativly charged.
When a metal is magnetic, its sea of electrons are alligned at one sidemaking a postive and negative end. These poles can then sttract or repel the sea of electrons in another metal causing it to also become polarized. n.b. not all electrons retreat to one side, only enough to allow protons to outnumber the electrons left behind. If all the elctrons did move, the protons would repel each other and the metal would push itself apart and it would crumble.
Iodine (I) has 53 electrons; the number of electrons is identical to number of protons and the atomic number.
Valance electrons are not located near the nucleus. These electrons are in fact located the furthest away from the nucleus compared to other electrons.
Atomic Number identifies the following:No. of protons (same as the atomic number)No. of electrons (mostly same as no. of protons)Approximate Atomic Mass (No. of neutrons are roughly equal to or near to no. of protons)
The charged object may induce a separation of charges in the neutral object.The charged object may induce a separation of charges in the neutral object.The charged object may induce a separation of charges in the neutral object.The charged object may induce a separation of charges in the neutral object.