Are you asking about charged particles attracting neutral particles or neutral objects? (Like a charged rod attracting bits of paper.)Fusilli_Jerry89 said:Can some one please explain to me why charged particles attract neutral ones...
Usually a charged particle will not atract or repel a neutral one electrically. If you've been told they do, you have been misinformed. Your deduction from the equation is correct for particles.I read somewhere that protons and electrons do not have any effect on the neutrons.
Note that these spheres are objects composed of gazillions of charged particles. Yes, you will get charge separation/polarization. Note that this brings the +charges in the uncharged sphere closer to the charged sphere than the -charges--thus you get an attractive force. How much charge separation depends on the nature of the objects: in a conductor, electrons are free to move; in an insulator, they are bound to the nucleus, but can move somewhat, depending upon the polarizability of the material.Fusilli_Jerry89 said:k, say you bring two speres (1 charged, one not) close together. Wouldn't the charged object(-) push the electrons to the other end of the sphere, thus making the side of it charged positively, would they then attracts to the charged object? ISn't there a force there? How would you calculate it?
You get the same thing, only in reverse. Now the electrons in the uncharged sphere move towards the charged sphere, leading to a similar attractive force.Also, if you brought a positive(+) charged object near the neutral one instead of negative, would the attraction be weaker, due to the prontons not being able to move, thus adding some positive charge to the same side, some cancelling negative charges from the electrons?
An electric charge is a physical property of matter that causes it to experience a force when near other electrically charged particles. It can be positive or negative, and is measured in Coulombs (C).
Electric charges interact with each other through the electromagnetic force. Opposite charges attract each other, while like charges repel each other.
Static electricity is the buildup of electric charge on the surface of an object, while current electricity is the flow of electric charge through a conductor. Static electricity is typically stationary, while current electricity is constantly moving.
The unit of measurement for electric charge is Coulombs (C). One Coulomb is equal to the amount of charge transferred by a current of one ampere in one second.
Objects can become electrically charged through the transfer of electrons. This can happen through friction, contact, or induction. When an object gains or loses electrons, it becomes positively or negatively charged, respectively.