Yes.
-- Gravity ... attraction between any two masses-- Magnetic force ... attraction or repulsion between a magnet and magnetic materials,or between conductors carrying electric current-- Electrostatic force ... attraction or repulsion between electric charges, like theballoon and the wall, the comb and the bits of tissue, the socks and the shirtsin the dryer, etc.-- Strong nuclear force ... attraction between particles in the nucleus of the atom;only works over very short distances ... like inside the nucleus of an atom.
Gravity is the force that pulls matter together. The gravitational pull is how the moons stay in orbit around a planet.
It is only attractive in nature. I am not sure which nuclear force you talk about. Electrical forces of the nucleus are repulsive to the positively charged. There are "strong forces" and the like which are attractive.
The electrostatic force is attractive between unlike charges, and repulsive between like charges.
electromagnetic, gravity, weak, and strong forces
Ions combine by electrostatic attraction. Opposite charges attracting each other. The attraction of opposite charges and repelling of like charges is the basis of one of the fundamental forces described in physics. Others are gravity, magnetism (actually electricity and magnetism are combined into electromagnetism), the strong nuclear force and the weak nuclear force.
the strength depends on the molecule in question, but they are strong
Ionic forces are electrostatic forces and are very strong forces of attraction.
The strong forces of attraction between the positive and negative regions of molecules are called electrostatic forces or electrostatic interactions.
The NaCl has the ion dipole force. This is because the attraction between the Na and Cl ions and the partial charges on the water molecules are strong. They are able to overcome the forces that bind the ions together.
There are strong forces of attraction between particles in a solid.
They are held together by strong electrostatic forces of attraction.
The strong force. The weak force. The electro-magnetic force. The gravitational force.
The chemical bond formed is ionic.
In accordance with Coulomb's Law, the positively charged magnesium ions attract the negatively charged oxygen atoms, and they form an alternating lattice. You never get two magnesium or two oxygen next to each other, because they repel each other; you get alternating magnesium and oxygen.
The strong force. The weak force. The electro-magnetic force. The gravitational force.
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.