No. The strong nuclear force works through the exchange of a subatomic particle called a meson. Additionally, the strong nuclear force has to hold protons and neutrons together in the nucleus, so having a charge would have no effect on the neutrons.
The "strong nuclear force" does.
The Strong Nuclear Force and the Electromagnetic Force
Electromagnetic Force
electromagnetic - holds electrons to nucleusweak - mediates neutron decay processstrong - holds nucleus togethergravity - has no effectOnly 3 of the 4 forces act to hold atoms together.
Gravity, electromagnetic, strong and weak nuclear force
Gravity, electromagnetic, strong nuclear, weak nuclear.
Gravity, Weak, Electromagnetic, and Strong.
Gravitational, Strong Nuclear, Weak Nuclear, and Electromagnetic.
electromagnetic force strong nuclear force weak nuclear force gravitational force
The "strong nuclear force" does.
Strong nuclear force, weak nuclear force, electromagnetic and gravity.
The four fundamental forces of nature are gravity, the electromagnetic force, the strong force (strong nuclear force or strong interaction), and the weak force(weak nuclear force or weak interaction).
The strong nuclear force is, at short distances, FAR stronger than the electromagnetic force. If it wasn't, protons in the nucleus would fly apart.
The Strong Nuclear Force and the Electromagnetic Force
electromagnetic force strong nuclear force weak nuclear force gravitational force
Electromagnetic Force
The four known basic forces in the universe are the gravitational force, the electromagnetic force, the strong force, and the weak force.