yes
because(F=Q.v.B)
Than electrical field intensity is (E=v.B)
that established a electrical field.
if charge particle is in motion ,then it has magnetic field
The influence extended to a surrounding space by a charge in motion is the gravitational field.
The electrical field is the force per unit charge experienced by a charged particle in an electric field. The electrical potential, or voltage, is the energy per unit charge required to move a charged particle between two points in an electric field. The relationship between them is that the electric field is the negative gradient of the electrical potential.
When a charged particle is placed in an electric field, it experiences a force due to the field. This force causes the particle to accelerate in the direction of the field if the charge is positive, or in the opposite direction if the charge is negative. The motion of the particle will depend on its initial velocity and the strength and direction of the electric field.
The electrical potential energy of a charge is determined by both its charge and the electric field in which it resides. The potential energy increases with the charge of the object and how much it is separated from another object with opposite charge. The direction of the electric field also influences the potential energy of a charge.
The force around a another charge whether it is attracting or repulsive due to the another point charge is known as electric field
Electric charge produces an electric field by just sitting there. It doesn't have to move. If it moves, it produces a magnetic field. It doesn't matter how the motion would be described.
No, the charge will not make a rectilinear motion. In a nonuniform electric field, the force on the charge will vary depending on its position, leading to a curved trajectory rather than a straight line path.
Yes, a moving charge can produce a magnetic field as it generates a magnetic field due to its motion. This phenomenon is described by Ampere's law in electromagnetism.
A capacitor is an electrical component that can hold an electrical charge. It stores energy in an electric field when connected to a power source and can release this stored energy when needed.
magnet
The movement of electrical charge on a material is called electric current. It is defined as the flow of electric charge through a medium, such as a wire, in response to an electric field.