The term used to describe a solid object that accumulates a charge in one limited area is "charged object" or "electrified object".
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 contact, the object getting the charge has the same charge compared with that of the object giving the charge. so if the object giving the charge has a positive charge, so does the object getting the charge
When a positively charged object is grounded, electrons from the ground are free to move onto the object. These electrons neutralize the positive charge by transferring to the positively charged object, allowing the excess electrons on the object to flow into the ground. This flow of electrons equalizes the charge between the object and the ground.
Depends on the charge (and conductivity) of the "other" object.
Electrons move onto the object, giving it a static charge. Apex ;)
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 contact, the object getting the charge has the same charge compared with that of the object giving the charge. so if the object giving the charge has a positive charge, so does the object getting the charge
When a positively charged object is grounded, electrons from the ground are free to move onto the object. These electrons neutralize the positive charge by transferring to the positively charged object, allowing the excess electrons on the object to flow into the ground. This flow of electrons equalizes the charge between the object and the ground.
Depends on the charge (and conductivity) of the "other" object.
Electrons move onto the object, giving it a static charge. Apex ;)
Displacement is the term used to describe a charge in an object's position relative to a reference point. It is a vector quantity that measures the change in position of an object, including both distance and direction.
When the conduction of an object changes, the charge of the object remains the same. Changing the conduction process affects how the charge is distributed or how easily it can flow within the object, but the total amount of charge in the object does not change.
To charge an object negatively with the help of a positive charge, you can use a process called induction. By bringing a positively charged object close to the object you want to charge negatively, the positive charge will attract the negative charges in the object, causing them to move away. This leaves the object with a net negative charge.
An object with a positive charge has an excess of protons compared to electrons.
They attract.
The object with zero charge is electrically neutral.
The object will get a negative charge. When a positively-charged rod is brought near the object, it polarizes the charges in the object, causing the electrons to move away from the rod, leaving the object with a net negative charge.