The negatively charged object will attract the positive charges in the neutral object, causing them to move away, leaving the side closer to the negatively charged object slightly positive and the other side slightly negative. This uneven distribution of charges is known as polarization.
When a negatively charged object touches a neutral object, electrons transfer from the negatively charged object to the neutral object, causing the neutral object to gain electrons. This results in the neutral object becoming negatively charged.
A neutral body can be charged negatively by induction when it is brought close to a negatively charged object. The negatively charged object repels electrons within the neutral body, causing the electrons to move towards the opposite side, leaving that side with a net positive charge. This results in the neutral body being negatively charged on one side.
The negatively charged object will attract the positive charges within the neutral object towards it, causing the neutral object to become polarized. This will result in an attractive force between the negatively charged object and the neutral object.
An example of a negatively charged object in contact with a neutral object would be rubbing a balloon on a sweater. The balloon becomes negatively charged and can attract the neutral object (sweater) due to the presence of opposite charges.
When a charged object is brought close to another oppositely charged object, they will experience an attractive force due to the difference in charge. If they are allowed to come into contact, electrons will transfer from the negatively charged object to the positively charged object until they reach equilibrium in charge distribution. This transfer of electrons will neutralize the objects.
the atom becomes negatively charged
When a negatively charged object touches a neutral object, electrons transfer from the negatively charged object to the neutral object, causing the neutral object to gain electrons. This results in the neutral object becoming negatively charged.
The negatively charged object will attract electrons in the neutral conductor towards it, causing the electrons to redistribute within the conductor. This redistribution will result in the end of the conductor closest to the negatively charged object becoming slightly negatively charged, while the end farthest from it becomes slightly positively charged. This induces a temporary dipole moment in the neutral conductor.
It becomes negatively charged.
No, a negatively charged particle (electron) has a negative charge associated with it. A neutral particle (neutron) is neither negatively charged nor positively charged.
A neutral body can be charged negatively by induction when it is brought close to a negatively charged object. The negatively charged object repels electrons within the neutral body, causing the electrons to move towards the opposite side, leaving that side with a net positive charge. This results in the neutral body being negatively charged on one side.
A black hole can be negatively charged, positively charged, or neutral depending on what has fallen into it.
The negatively charged object will attract the positive charges within the neutral object towards it, causing the neutral object to become polarized. This will result in an attractive force between the negatively charged object and the neutral object.
If an object is negatively charged, electrons will eventually drain off the charged object into the environment until the charge is neutral. If an object is positively charged, electrons will be attracted from the environment onto the charged object until its charge is neutral.
An example of a negatively charged object in contact with a neutral object would be rubbing a balloon on a sweater. The balloon becomes negatively charged and can attract the neutral object (sweater) due to the presence of opposite charges.
electron is negatively charged, not neutral.
When a charged object is brought close to another oppositely charged object, they will experience an attractive force due to the difference in charge. If they are allowed to come into contact, electrons will transfer from the negatively charged object to the positively charged object until they reach equilibrium in charge distribution. This transfer of electrons will neutralize the objects.