When a charged object is placed near a neutral object, the charged object can induce a charge separation in the neutral object, causing it to become polarized. This can result in an attraction or repulsion between the two objects depending on the type of charges involved.
When a charged insulator is placed near an uncharged metallic object and they repel each other, it is because the charged insulator induces a charge separation in the metallic object. The like charges in both objects will repel each other due to the presence of the induced charges. This effect is a result of electrostatic forces acting between the charged and uncharged objects.
it is neutral as the protons and the neutrons are the same amount.
The region around a charged object where its electrical force is exerted on other charged objects is known as the electric field. The strength of the electric field is determined by the magnitude of the charge on the object creating the field. Charged objects placed in the electric field will experience a force either attracting or repelling them, depending on the sign of the charges involved.
An electric field is always present around charged objects. It extends outwards in all directions from the charged object, exerting a force on other charged objects placed within its influence. The strength of the electric field diminishes with distance from the charged object.
Neutral objects near charged objects will either be attracted or repelled depending on the charge of the nearby object. If the charged object is positive, neutral objects will be attracted towards it; if it is negative, neutral objects will be repelled. This is due to the redistribution of charges in the neutral object when it interacts with the charged object.
When a charged object is placed near a neutral object, the charged object can induce a charge separation in the neutral object, causing it to become polarized. This can result in an attraction or repulsion between the two objects depending on the type of charges involved.
Charged objects can attract neutral objects through induction. The charged object creates an electric field that polarizes the neutral object, causing its electrons to slightly shift position. This results in a temporary attraction between the two objects.
When a charged insulator is placed near an uncharged metallic object and they repel each other, it is because the charged insulator induces a charge separation in the metallic object. The like charges in both objects will repel each other due to the presence of the induced charges. This effect is a result of electrostatic forces acting between the charged and uncharged objects.
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it is neutral as the protons and the neutrons are the same amount.
The material will
They float.
They scoot away from each other
well, since a neutron = 0 charge placed into a neutral which is has no charge, it stays the same.
The region around a charged object where its electrical force is exerted on other charged objects is known as the electric field. The strength of the electric field is determined by the magnitude of the charge on the object creating the field. Charged objects placed in the electric field will experience a force either attracting or repelling them, depending on the sign of the charges involved.
An electric field is always present around charged objects. It extends outwards in all directions from the charged object, exerting a force on other charged objects placed within its influence. The strength of the electric field diminishes with distance from the charged object.