What is the net force on dipole in uniform electric field?

The net force acting on a dipole placed in a uniform electric field is zero. The forces on the two charges constituting the dipole are equal and opposite. Hence, the net force is zero.

What happens when an electric dipole is placed in a uniform electric field?

When an electric dipole is placed in a uniform electric field, it experiences a torque but no force. In a uniform electric field, both the point charges comprising the dipole will experience force, equal in magnitude and opposite in direction. The net force acting on a dipole placed in a uniform electric field is zero.

What is the net force on an electric dipole when it is placed at an angle 30 in a uniform electric field?

Answer: the net force on the dipole is zero but there is a torque.

What is the net torque on the electric dipole?

Torque (τ) = Force × Distance Separating Forces. τ=dqEsinθ Since dipole moment is given by: p=qd. And the direction of the dipole moment is from the positive to the negative charge, it can see from the above equation that the torque is the cross product of the dipole moment and electric field.

When an electric dipole is held in an uniform electric field the net force F and the torque τ on the dipole are?

Answer: the forces experienced by the 2 charges constituting the electric dipole when placed in an uniform external electric field are equal and opposite in nature, the net force on the dipole is zero. No torque act on the dipole when the moment of electric dipole is parallel to the electric field.

When electric dipole is placed in a uniform electric field its two charges experience equal and opposite forces?

zero
When electric dipole is placed in uniform electric field, its two charges experience equal and opposite forces, which cancel each other and hence net force on electric dipole in uniform electric field is zero.

What happens when electric dipole is placed in non uniform electric field?

When a dipole is placed in an electric field, the opposite charges on the dipole both experience a force due to the electric field. Hence the dipole will experience both force and torque when placed in a non uniform electric field. Therefore, the correct answer is option (B).

What is the net force on a dipole in a non uniform electric field?

When an electric dipole is placed in a non uniform electric the net force on the dipole due to the electric field will be non-zero as well as the torques it experiences in the field will be non-zero.

What is net force on the small dipole inside the capacitor if the plates are separated by 1 cm?

what is the net force on the small dipole inside the capacitor if the plates are separated by 1cm? Dear Student, The force on dipole would be zero, as dipole consists of two opposite charges whose forces will cancel each other.

How does torque on the dipole in uniform field depends on its orientation?

Electric dipole will experience a torque when dipole vector is not parallel to electric field direction. The torque τ = p × E = pESinθ. when p and E are parallel then angle θ between the two vectors is zero, hence there will not be any torque.

When an electric dipole is held at an angle in a uniform electric field the net force and torque are?

When an electric dipole is placed in a non uniform electric field it experiences?

If an electric dipole is placed in a nonuniform electric field, then the positive and the negative charges of the dipole will experience a net force. And as one end of the dipole is experiencing a force in one direction and the other end in the opposite direction, so the dipole will have a net torque also.