red solution
It could be electromagnetic attraction (or repulsion).
Magnets always produce an electromagnetic force- between the similar ends of magnets it is electromagnetic repulsion.
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 protons in the nucleus repel each other by the electromagnetic force, but this is nullified by the strong force.
The scientific name for magnetism is electromagnetic force. It is a fundamental force of nature that is responsible for the attraction and repulsion of charged particles.
The attraction or repulsion between two objects is determined by the type of charges they possess. Objects with opposite charges (e.g., positive and negative) will attract each other, while objects with the same charges (e.g., two positive or two negative) will repel each other. This attraction or repulsion is due to the electromagnetic force between the charges.
Magnets always produce an electromagnetic force- between the similar ends of magnets it is electromagnetic repulsion.
Electromagnetic force is one of the fundamental forces in nature, and it acts on charged particles within electromagnetic fields. This force is responsible for the interactions between charged particles, such as the attraction or repulsion between two charged objects. In electromagnetic fields, the force can cause charged particles to experience acceleration or move in specific ways depending on the characteristics of the field and the particles involved.
A moving electric charge creates a magnetic field around it. This magnetic field interacts with other nearby magnetic fields and forces, leading to various electromagnetic effects such as electromagnetic induction or magnetic attraction/repulsion.
Because of the electromagnetic force. The repulsion between the electrons of the atoms of the two objects will not allow them to pass through each other.
No, it is attractive. The strong nuclear force, as it is known, is what overcomes the coloumbic repulsion of the positively charged protons, which would otherwise tend to fly apart due to the electromagnetic force (like charges repulse).
Light is a form of electromagnetic radiation, so the forces acting on light are electromagnetic forces. These forces can include attraction or repulsion between charged particles, interactions with magnetic fields, and bending of light rays when passing through different mediums.