When an isolated object becomes charged by induction, the net charge on the object remains zero. This is because the charge is redistributed within the object but the total amount of charge does not change.
When an object is charged by induction, it means that the object becomes polarized or temporarily charged in response to the presence of a charged object nearby, without direct contact. This occurs because the charges in the object rearrange themselves in response to the nearby charged object, leading to an imbalance of charges.
An object becomes positively charged if it loses electrons. This is because electrons have a negative charge, so the less of them there are in an object, the stronger the positive charge is.
An example of an object that can be charged by induction is a metal sphere.
When an object is charged by induction, it becomes polarized due to the redistribution of charges. The object does not gain or lose a net charge, but develops regions of positive and negative charge. If the inducing object is removed, the polarization disappears.
Matter becomes charged when electrons are transferred between objects, causing an imbalance of positive and negative charges. This can occur through friction, conduction, or induction processes. When an object gains or loses electrons, it becomes either positively or negatively charged.
induction
When an object is charged by induction, it means that the object becomes polarized or temporarily charged in response to the presence of a charged object nearby, without direct contact. This occurs because the charges in the object rearrange themselves in response to the nearby charged object, leading to an imbalance of charges.
An object becomes positively charged if it loses electrons. This is because electrons have a negative charge, so the less of them there are in an object, the stronger the positive charge is.
An example of an object that can be charged by induction is a metal sphere.
When an object is charged by induction, it becomes polarized due to the redistribution of charges. The object does not gain or lose a net charge, but develops regions of positive and negative charge. If the inducing object is removed, the polarization disappears.
Matter becomes charged when electrons are transferred between objects, causing an imbalance of positive and negative charges. This can occur through friction, conduction, or induction processes. When an object gains or loses electrons, it becomes either positively or negatively charged.
An object becomes statically charged when it gains or loses electrons, resulting in an imbalance of positive and negative charges. This can happen through friction, induction, or conduction with another charged object.
An object becomes positively charged if it loses electrons. This is because electrons have a negative charge, so the less of them there are in an object, the stronger the positive charge is.
Induction is the process where an object becomes charged by placing another charged object near it. When a charged object is brought close to a neutral object, the charges in the neutral object redistribute, causing it to become charged.
Yes, objects can become charged by induction. When a charged object is brought near a neutral object, the charges in the neutral object rearrange, causing one side to become oppositely charged. This process is known as induction, and it can result in the neutral object becoming charged temporarily.
An object becomes positively charged by losing electrons, which are negatively charged particles. This can happen through processes like friction, conduction, or induction, which result in a net loss of electrons and an excess of positive charges on the object.
Induction happens