The electric field around an electric charge varies inversely as the square of the distance to the charge.
The electric field around a negative charge points inward, towards the charge, while the electric field around a positive charge points outward, away from the charge. The electric field strength decreases with distance from both charges, following an inverse square law relationship.
A point charge is a theoretical concept representing a charged particle with no size or volume. It affects the electric field around it by creating a force that attracts or repels other charged particles in the surrounding space. The strength of the electric field decreases with distance from the point charge, following the inverse square law.
The electric field around a negative charge points radially inward towards the charge. The field lines move from areas of higher potential to lower potential. The magnitude of the electric field decreases with distance from the negative charge.
The presence of an electric charge creates an electric field around it. This electric field exerts a force on other charged objects in the surrounding area. The strength and direction of the electric field depend on the magnitude and sign of the charge.
distance between charged particles.
The electric field around a negative charge points inward, towards the charge, while the electric field around a positive charge points outward, away from the charge. The electric field strength decreases with distance from both charges, following an inverse square law relationship.
A negative charge is caused by a excess of electrons and a positive charge by their lack.
It's the electric field.
A point charge is a theoretical concept representing a charged particle with no size or volume. It affects the electric field around it by creating a force that attracts or repels other charged particles in the surrounding space. The strength of the electric field decreases with distance from the point charge, following the inverse square law.
The electric field around a negative charge points radially inward towards the charge. The field lines move from areas of higher potential to lower potential. The magnitude of the electric field decreases with distance from the negative charge.
The presence of an electric charge creates an electric field around it. This electric field exerts a force on other charged objects in the surrounding area. The strength and direction of the electric field depend on the magnitude and sign of the charge.
distance between charged particles.
The electric field around a sphere is directly related to the charge distribution on the surface of the sphere. The electric field is stronger closer to the surface of the sphere and weaker further away, following the inverse square law.
The force around a another charge whether it is attracting or repulsive due to the another point charge is known as electric field
for apex its: a quantum field, a gravitational field
The space around a charged object in which another charge would experience an electric force is called an electric field. The electric field is a vector field that describes the influence of electric charges in the vicinity. It exerts a force on other charges present in the field.
The number that originates from a charge when an electric field line is drawn represents the magnitude of the charge creating the field. The field lines help us visualize the direction of the electric field and the relative strength of the field at different points around the charge. The closer the field lines are together, the stronger the electric field.