Repulsion is typically caused by the electromagnetic force, specifically the repulsive force between like charges. This force arises from the interaction between charged particles, such as electrons with electrons, or protons with protons, that pushes them away from each other.
The strong nuclear force is responsible for holding the atom's nucleus together by overcoming the electrostatic repulsion between positively charged protons. It is the strongest of the four fundamental forces.
The magnetic field is the invisible area where the forces of magnetic attraction or repulsion can be detected. This field extends around a magnet and can exert forces on other magnetic objects within its influence.
Strong forces are able to hold atomic nuclei together because they are powerful enough to overcome the electromagnetic repulsion between positively charged protons in the nucleus. These strong forces, also known as nuclear forces, are responsible for binding protons and neutrons together to form stable atomic nuclei.
Forces of attraction pull objects towards each other, such as gravity between objects with mass. Forces of repulsion push objects away from each other, like the electromagnetic force between particles with like charges. Both forces play a key role in determining the interactions between objects in the universe.
The strong nuclear force has a significant impact on the nucleus as it is responsible for binding protons and neutrons together. This force is responsible for holding the nucleus together despite the electromagnetic repulsion between protons.
They are the forces of repulsion.
The strong nuclear force is responsible for holding the atom's nucleus together by overcoming the electrostatic repulsion between positively charged protons. It is the strongest of the four fundamental forces.
Electrostatic attraction or repulsion, magnetic attraction or repulsion, gravitational attraction.
The magnetic field is the invisible area where the forces of magnetic attraction or repulsion can be detected. This field extends around a magnet and can exert forces on other magnetic objects within its influence.
Strong forces are able to hold atomic nuclei together because they are powerful enough to overcome the electromagnetic repulsion between positively charged protons in the nucleus. These strong forces, also known as nuclear forces, are responsible for binding protons and neutrons together to form stable atomic nuclei.
Cohesive force is the attractive force between like molecules. Cohesive forces are also known as intermolecular forces and can also be repulsion forces.
Electrostatic force.
Forces of attraction pull objects towards each other, such as gravity between objects with mass. Forces of repulsion push objects away from each other, like the electromagnetic force between particles with like charges. Both forces play a key role in determining the interactions between objects in the universe.
The strong nuclear force.
The strong nuclear force has a significant impact on the nucleus as it is responsible for binding protons and neutrons together. This force is responsible for holding the nucleus together despite the electromagnetic repulsion between protons.
The strong nuclear force is stronger than the repulsion between protons. The strong nuclear force is responsible for holding the nucleus together by overcoming the electrostatic repulsion between positively charged protons.
The forces that are responsible are Horizontal Surface Currents. They can be unpredictable.