Magnestism
The Law of Attraction and Repulsion states that like charges repel each other, and unlike charges attract. For example, two positively charged objects would repel, whereas a positively charged object and a negatively charged object would attract.
Electrostatic attraction or repulsion, magnetic attraction or repulsion, gravitational attraction.
coulomb
Newtons law has to due with mass and ATTRACTION only Coulombs law has to due with charge and ATTRACTION AND REPULSION
The magnetic field is the invisible area where the forces of magnetic attraction or repulsion can be detected. This field extends around a magnet and can exert forces on other magnetic objects within its influence.
In a three-charge system, the forces present are the electrostatic forces of attraction or repulsion between the charges. These forces are determined by the magnitudes and signs of the charges, as well as the distances between them, according to Coulomb's Law.
The law of electrical attraction and repulsion was formulated by Charles Augustin de Coulomb, a French physicist, in the late 18th century. Coulomb's law quantifies the force between two stationary electrically charged objects.
The law of attraction and repulsion states that objects with opposite charges (positive and negative) attract each other, while objects with like charges repel each other. This principle is a fundamental concept in physics, particularly in the study of electromagnetism.
Forces of attraction pull objects towards each other, such as gravity between objects with mass. Forces of repulsion push objects away from each other, like the electromagnetic force between particles with like charges. Both forces play a key role in determining the interactions between objects in the universe.
The concepts of attraction and repulsion were explored extensively by various scientists, but key figures include Charles-Augustin de Coulomb in the 18th century, who formulated Coulomb's law describing the electrostatic force between charged objects. Additionally, Isaac Newton's work on gravitation laid the groundwork for understanding attraction in a broader sense. While these principles were not "discovered" by a single individual, their contributions significantly advanced the understanding of these forces in physics.
The force of attraction or repulsion due to static changes
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.
Inter particle forces are the forces which operate between particles. They may be forces of attraction, e.g. gravity, or repulsion, e.g. between two negative charges.