Positively charged protons and negatively charged electrons have equal but opposite charges.
The cause is the electrical repulsion between particles.
Yes, gluons are particles that mediate the strong force between quarks, which are the building blocks of protons and neutrons. Gluons are bosons and are responsible for holding quarks together within atomic nuclei.
The largest force acting with in an atom is the van der wells force. It is several orders of magnitude stronger the the weak nuclear forces. It really depends on what sub atomic particles you are talking about.
the particles would all become de-localised, and no elements would exist, just sub-atomic particles.
Since there is more mass in the uranium nucleus, there would be a proportionally stronger gravitational force in the uranium nucleus. However, the gravitational force is the weakest force, and it is followed in scale by the weak atomic force, the electromagnetic force, and the strong atomic force, which are many orders of magnitude greater, so, in effect, the gravitational force does not even count in the vicinity of the nucleus.
The electrical force is typically stronger than the gravitational force. On atomic scales, the electrical force dominates interactions between charged particles whereas the gravitational force becomes more significant on larger scales such as celestial bodies. In particle physics, the electrical force is found to be significantly stronger than gravity.
Negative charges that are dislodged by electrical force are called electrons. Electrons are subatomic particles that carry a negative charge and are responsible for generating electricity when they move through a conductor.
Subatomic particles of energy are photons, while subatomic particles of matter are electrons, protons, and neutrons. Electromagnetic waves propagate by the exchange of photons, which carry the electromagnetic force.
Electrostatic force of attraction
Electric force is the force exerted between charged particles, while charge is a fundamental property of matter that determines how particles interact with electric and magnetic fields. In other words, charge is the property that gives rise to electric force.
Gluons are the particles that carry the strong force, which is one of the four fundamental forces in nature. Gluons hold quarks together to form protons, neutrons, and other particles in the nucleus of atoms.
Electrical force is related to speed through the concept of current, which is the flow of electric charge. The speed at which charged particles move in a circuit determines the strength of the electrical force acting on them. Greater speed leads to a stronger electrical force.
The cause is the electrical repulsion between particles.
The fundamental force that holds subatomic particles together in the nucleus is the strong nuclear force. This force is responsible for binding protons and neutrons together in the atomic nucleus.
The electrical force between non-moving charges is called the electrostatic force. This force is responsible for the attraction or repulsion between charged particles at rest.
The electrical force between non-moving charges is known as the electrostatic force. It is a static force that acts between stationary charged particles due to their electric fields.
Electromotive force = electromagnetic force The photon (γ)