The electric field outside the shell is the same as it would be if all the charge of the shell was concentrated as a point charge in the centre of the shell.
From Gauss's Law, Electric Field inside is 0, and it's electric flux is equal to Qenclosed/Eo, where Eo is the electric vacuum permittivity constant. Also, outside of the sphere, it could be treated as a point charge, where the point lies at the center of the shell and has a charge equal to the total charge of the shell.
yes the space around a electrically charged object is known as electric field......
The region in which a charged particle still experiences an electric force is called the electric field. An electric field is created by charged objects and extends into the space around them, influencing other charged particles within that region. The strength and direction of the electric field can vary depending on the distance from the source charge.
An electric field is a region in which charged particles can be pushed or pulled due to the presence of other charged particles. The strength of the electric field determines the force experienced by charged particles within the region.
Yes, a magnetic field is generated by moving electric charges. When charged particles such as electrons are in motion, they create a magnetic field that can exert forces on other charged particles. This relationship is described by the magnetic field's direction being perpendicular to both the direction of motion of the charged particles and the electric field.
The electric field inside a charged insulator is zero, while the electric field outside a charged insulator is non-zero.
Inside a charged insulator, the electric field is 0, as charges cannot move freely in insulators. Outside the insulator, the electric field behaves as if all the charge is concentrated at the center of the insulator.
From Gauss's Law, Electric Field inside is 0, and it's electric flux is equal to Qenclosed/Eo, where Eo is the electric vacuum permittivity constant. Also, outside of the sphere, it could be treated as a point charge, where the point lies at the center of the shell and has a charge equal to the total charge of the shell.
The electric field of a finite cylinder is the force per unit charge experienced by a charged particle at any point outside the cylinder. It is calculated using the formula for the electric field of a charged line of charge density.
The electric field is a region around a charged object where other charged objects experience a force. The electric force is the actual force experienced by a charged object in an electric field. In summary, the electric field sets up the conditions for the electric force to act on charged objects.
The electric field produced by a point charge is directly proportional to the charge and inversely proportional to the square of the distance from the charge. For a charged sphere, the electric field outside the sphere behaves as if all the charge is concentrated at the center, similar to a point charge. Inside the sphere, the electric field is zero.
Yes. The static electric field inside a charged conductor is zero, no matter what the voltage is between the conductor and the rest of the world.
yes the space around a electrically charged object is known as electric field......
The electric field is a region around a charged object where other charged objects experience a force. The electric force is the actual force experienced by a charged object in an electric field. In the context of electromagnetism, the electric field is what creates the electric force, which is responsible for the interaction between charged particles.
It's the electric field.
The electric field inside a uniformly charged sphere is zero.
An electric field does positive work on a charged particle when the direction of the electric field is the same as the direction of the particle's movement.