Depends on the charge (and conductivity) of the "other" object.
Depends on the charge (and conductivity) of the "other" object.
When an object receives a negative charge, there is no change in its mass. Mass is a fundamental property of matter that is not affected by the addition or removal of charge. The negative charge simply alters the distribution of electrons on the object's surface.
The negative charge of the object will induce a positive charge on the comb, causing the comb to be attracted to the object.
When a charged object touches a conductor, the charge on the object will distribute itself across the surface of the conductor due to the repulsion or attraction of like and unlike charges. This process helps to neutralize the charge on the object, resulting in an overall even distribution of charge on the conductor.
When a balloon is rubbed with a wooden sleeve, it gains a negative charge. This happens because electrons are transferred from the atoms in the wooden sleeve to the atoms in the balloon, leaving the balloon with an excess of electrons and thus a negative charge.
Depends on the charge (and conductivity) of the "other" object.
when two charged spheres touched each other,they lose their charge as they want to gain thermal equilibrium.Every body in the universe went to their stable form so the same thing is done by charges
An atom takes on a negative charge by gaining electon/electrons and thus, becomes an anoin
dogs&cats
The pith ball will have a negative charge after touching the negatively charged polyethylene strip. This is because electrons are transferred from the strip to the pith ball, leaving the pith ball with a net negative charge.
The cloud's strong negative charge attracts the ground's positive charge
When an object receives a negative charge, there is no change in its mass. Mass is a fundamental property of matter that is not affected by the addition or removal of charge. The negative charge simply alters the distribution of electrons on the object's surface.
An electron has a negative charge of 1.6E-19 Coulombs. This will subtract from the net charge of an atom, so the net charge will be less, assuming that a negative charge is less than a positive charge.
The negative charge of the object will induce a positive charge on the comb, causing the comb to be attracted to the object.
All electrons are charged with a negative charge, -1.
When a charged object touches a conductor, the charge on the object will distribute itself across the surface of the conductor due to the repulsion or attraction of like and unlike charges. This process helps to neutralize the charge on the object, resulting in an overall even distribution of charge on the conductor.
Well the metal would obviously attract a charged particle for its charge less surface. The only possible way would be placing a positively charged object on the other side of the negative charged object such that it could counter effect the coulombian pull on the negative charge due to the metal. To keep the positive charge in place it would need to place it within oppositely charged electronic plates. This needs more amendments but thats another topic. When a charged object touches metal, the end result is usually what is known as a static shock.