Because of the electrons and protons the object has
I assume you mean "neutral object". The answer is that the charged object will induce a separation of charges in the neutral object.
A negatively charged object. Also, a neutral object, through an induced separation of charges.
This is known as electrostatic induction. As charged object (say positive) is brought near by the neutral object the opposite charges i.e. negative would get attracted towards and positive charges would be pushed away. Yet the object is neutral though the charges got separated. Now due to attraction of unlike charges the neutral is attracted towards the charged one.
A neutron. There are several neutral particles, but the neutron is the most well-known.A neutron. There are several neutral particles, but the neutron is the most well-known.A neutron. There are several neutral particles, but the neutron is the most well-known.A neutron. There are several neutral particles, but the neutron is the most well-known.
There will be an attractive interaction between the charged object and the neutral object.
I assume you mean "neutral object". The answer is that the charged object will induce a separation of charges in the neutral object.
A negatively charged object. Also, a neutral object, through an induced separation of charges.
A negatively charged object. Also, a neutral object, through an induced separation of charges.
A negatively charged object. Also, a neutral object, through an induced separation of charges.
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.
This is known as electrostatic induction. As charged object (say positive) is brought near by the neutral object the opposite charges i.e. negative would get attracted towards and positive charges would be pushed away. Yet the object is neutral though the charges got separated. Now due to attraction of unlike charges the neutral is attracted towards the charged one.
If charge can flow within the neutral particle and you place it near a charged object, like charges tend to move toward the object and opposite charges move away. This splitting of the charge gives the neutral dust particle an electric dipole moment.
A neutron. There are several neutral particles, but the neutron is the most well-known.A neutron. There are several neutral particles, but the neutron is the most well-known.A neutron. There are several neutral particles, but the neutron is the most well-known.A neutron. There are several neutral particles, but the neutron is the most well-known.
A neutral pith ball is still "charged", it just doesn't display excessively charged behavior. Since it is neutral, having nearly equal positive and negative charge, the proximity of the positively charged pith ball still attracts the negative charge present in the ball, inducing polarization moving the ball closer to the positively charged one. Once they make contact, the conductibility of the pith ball quickly accepts excess charge from the other, creating a like charge repulsion.
A charged object attracts the neutral object by polarising it.
There will be an attractive interaction between the charged object and the neutral object.
In a electrostatically neutral object there are equal numbers of charged particles (electrons and protons).