Attraction
Particles in an atom have opposite electrical charges, which cause the particles to attract each other, kind of like how positive and negative magnets stick together.
the nucleusSimply: the nucleus is NOT made up of positive and negative electrons. (thought you have to understand, if it were, the opposing charges of the particles would hold it together, NOT make it fall apart)the nucleus is made up of positive particles (protons) and neutral particles (neutrons). electrons are always NEGATIVELY charged and are not in the nucleus.while it is true that atoms are made of positive and negative charges wich attract, the protons in the nucleus should repel based on this theory. the reason why the nucleus stays together is because there is a nuclear force that supercedes the magnetic and gravitational forces. neutrons that have a neutral charge also help the nucleus stay together because they buffer between protons.
This is called the strong nuclear force, at close range it overcomes electrostatic repulsion between protons. This force had to be deduced from the stability of nuclei, but theoretical physicists are still trying to explain what it really is and how it works.
The strong forces of attraction between the positive and negative regions of molecules are called electrostatic forces or electrostatic interactions.
electrons are held to nucleus by electromagnetic force.protons and neutrons in nucleus are held together by both strong and weak forces.quarks in protons and neutrons are held together by strong force.
During a storm small particles are propelled towards the top of the cloud by strong internal winds. The larger particles fall to the bottom of the cloud. This causes the top of the cloud to develop a strong positive charge, while the bottom of the cloud has a strong negative charge. This induces a positive charge on the ground. This combination is where there is a massive very rapid transfer of electrons, also known as lightning.
Particles in an atom have opposite electrical charges, which cause the particles to attract each other, kind of like how positive and negative magnets stick together.
Strong force keeps particles in a nucleus together.
no cause a positive and negative make a negative unless the positive has a really strong blood line
the nucleusSimply: the nucleus is NOT made up of positive and negative electrons. (thought you have to understand, if it were, the opposing charges of the particles would hold it together, NOT make it fall apart)the nucleus is made up of positive particles (protons) and neutral particles (neutrons). electrons are always NEGATIVELY charged and are not in the nucleus.while it is true that atoms are made of positive and negative charges wich attract, the protons in the nucleus should repel based on this theory. the reason why the nucleus stays together is because there is a nuclear force that supercedes the magnetic and gravitational forces. neutrons that have a neutral charge also help the nucleus stay together because they buffer between protons.
The particles within diamond are held together by the strong covalent bonds.
This is called the strong nuclear force, at close range it overcomes electrostatic repulsion between protons. This force had to be deduced from the stability of nuclei, but theoretical physicists are still trying to explain what it really is and how it works.
Neither charge on its own has an attractive force. Opposite charges (positive-negative) will attract while like charges (negative-negative or positive-positive) will repel.
they are covalently bonded
Atoms are made of three main particles: protons, neutrons and electrons. Electrons have negative charge, are very small (even for subatomic particles) and orbit the center of the atom, which contains the protons and neutrons. Protons have positive charge, and are held by strong nuclear force to the neutrons, which are neutral (no charge).
The strong forces of attraction between the positive and negative regions of molecules are called electrostatic forces or electrostatic interactions.
The Strong Force.