Any material has electrical charges. A conductor will usually not have more or less charges than a non-conductor. The relevant charges - often electrons - are simply relatively free to move around.
When a conductor is connected to "ground," it becomes neutral and carries no charge.
The charge density for a conductor is zero in the bulk of the material when it is in electrostatic equilibrium. Any excess charge resides on the surface of the conductor. This is due to the principle that charges in a conductor distribute themselves in such a way that the electric field inside is zero.
The central charge of a spherical conductor with a cavity affects the electric field distribution within the conductor. The electric field inside the conductor is zero, and the charge is distributed on the surface. The central charge influences how the charge is distributed on the surface, which in turn affects the electric field distribution within the conductor.
The electric field inside a conductor is zero, and the surface charge resides on the outer surface of the conductor. This means that the electric field at the surface of a conductor is perpendicular to the surface and proportional to the surface charge density.
well it is not possible to transfer all charge all charge from one body to another coz this process between two bodies stops when their potential difference becomes same n thus all charge does not gets transferred.
When an electric charge moves through a conductor, an electric current is generated in the conductor. The flow of electrons creates a flow of current in the conductor, which is the movement of electric charge through the material.
The ability of a conductor to take on charge is called its conductance.
When a conductor is connected to "ground," it becomes neutral and carries no charge.
The charge density for a conductor is zero in the bulk of the material when it is in electrostatic equilibrium. Any excess charge resides on the surface of the conductor. This is due to the principle that charges in a conductor distribute themselves in such a way that the electric field inside is zero.
The central charge of a spherical conductor with a cavity affects the electric field distribution within the conductor. The electric field inside the conductor is zero, and the charge is distributed on the surface. The central charge influences how the charge is distributed on the surface, which in turn affects the electric field distribution within the conductor.
the metal that serves as the best conductor of electric charge is the METAL
The electric field inside a conductor is zero, and the surface charge resides on the outer surface of the conductor. This means that the electric field at the surface of a conductor is perpendicular to the surface and proportional to the surface charge density.
well it is not possible to transfer all charge all charge from one body to another coz this process between two bodies stops when their potential difference becomes same n thus all charge does not gets transferred.
Yes, the charges inside a conductor will rearrange when an external charge is placed near or on the surface of the conductor, resulting in an induced electric field inside the conductor. This induced electric field will influence the external charge's behavior without the need for direct contact between the charges.
Static charge does not tend to build up on a conductor because charges on a conductor move freely due to the presence of free electrons. Any excess charge present redistributes itself on the surface of the conductor, neutralizing and eliminating the build-up of static charge.
Because in a conductor charges are free to move and since like charges repel each other they move as far as they can from each other, which is the surface.
property of a conductor that opposes the flow of charge passing through it