Want this question answered?
electric forces can be attractive or repulsive, whereas gravitational forces are only attractive.
attraction forces between the electrons of one atom and the nucleus of the other atom are balanced by the repulsive force caused by the two + charged nuclei as they are forced together~attractive forces have a little attraction for the atoms.
Electromagnetic.
The electrostatic force is attractive between unlike charges, and repulsive between like charges.
Electronic forces mainly differ from gravitational forces by being also repulsive while gravitational forces are only attractive.
Gravitational forces are always attractive. Electrical charges are repulsive for same-type charges, and attractive for opposite-types.
It is the repulsive or attractive force produced between the charges at rest.
Agree, because this repulsion of like electrostatic charges is an inherent property of such charges. However, the repulsive force can be exceeded by attractive, atomic level forces, such as those that form atomic nuclei from many protons, or by attractive electrostatic forces between opposite charges, as occurs in metallic bonding and ionic solids.
repulsive forces between unshared pairs of electrons
yes
The attractive and repulsive forces between charged particles are there, whether the charged particles move or not. They do not depend on the movement of the charges. This is in contrast with other electrical phenomena, which only appear when there is a movement of charges.
electric forces can be attractive or repulsive, whereas gravitational forces are only attractive.
attraction forces between the electrons of one atom and the nucleus of the other atom are balanced by the repulsive force caused by the two + charged nuclei as they are forced together~attractive forces have a little attraction for the atoms.
Electromagnetic.
Electrical forces act between separated charges.
The electrostatic force is attractive between unlike charges, and repulsive between like charges.
The attractive forces are electrical forces between opposing charges.