electric force
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∙ 12y agoCharged objects exert a force on each other called electrostatic force. This force can be either attractive or repulsive, depending on the types of charges present (positive or negative). The magnitude of the force is determined by the amount of charge on the objects and the distance between them.
Charged objects do not have to physically touch each other in order to exert a force on each other. The force between charged objects can be exerted through electromagnetic fields that extend through space. This force is known as the electrostatic force.
No, objects do not have to be touching each other to exert electrical force. The force between charged objects can be exerted through electric fields, which can act over a distance. This force diminishes with distance according to Coulomb's Law.
An electrically charged object has an imbalance of positive or negative charges, while a neutral object has an equal number of positive and negative charges. Charged objects can attract or repel other charged objects due to their electric fields, whereas neutral objects do not exert such forces.
When two charged objects are made to touch each other and then separate, the transfer of charge can occur. This is known as charging by conduction, where electrons can move from one object to the other to balance out the charges.
Massive objects exert gravitational force. This force attracts other objects with mass towards them. The magnitude of the force depends on the masses of the objects and the distance between them.
Charged objects do not have to physically touch each other in order to exert a force on each other. The force between charged objects can be exerted through electromagnetic fields that extend through space. This force is known as the electrostatic force.
No, objects do not have to be touching each other to exert electrical force. The force between charged objects can be exerted through electric fields, which can act over a distance. This force diminishes with distance according to Coulomb's Law.
Charged objects and magnets both produce electromagnetic forces. A charged object generates an electric field that can attract or repel other charged objects, while a magnet produces a magnetic field that can attract or repel other magnets or magnetic materials. Both can exert forces on nearby objects without physical contact.
An electrically charged object has an imbalance of positive or negative charges, while a neutral object has an equal number of positive and negative charges. Charged objects can attract or repel other charged objects due to their electric fields, whereas neutral objects do not exert such forces.
When two charged objects are made to touch each other and then separate, the transfer of charge can occur. This is known as charging by conduction, where electrons can move from one object to the other to balance out the charges.
Massive objects exert gravitational force. This force attracts other objects with mass towards them. The magnitude of the force depends on the masses of the objects and the distance between them.
When two objects have opposite electrical charges, they exert an attractive force on each other. This force is known as the electrostatic force. Oppositely charged objects will be pulled towards each other until they come into contact or the force is balanced by another force.
No, an object with a static charge can attract both charged and neutral objects. This is because the static charge can induce a temporary charge separation in neutral objects, causing an attraction between them.
A charged object exerts a force on other charged objects through the electromagnetic interaction. Like charges repel each other, while opposite charges attract. This force is described by Coulomb's law.
Yes, two objects exert a gravitational force on each other according to Newton's law of universal gravitation. This force is proportional to the product of their masses and inversely proportional to the square of the distance between their centers.
The way in which objects exert forces on each other is described by Newton's Third Law of Motion. This law states that for every action, there is an equal and opposite reaction. This means that when one object exerts a force on another object, the second object exerts an equal force in the opposite direction.
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