What is the net force and torque acting on an electric dipole placed in a uniform electric field
Answers
Answer:
In a uniform electric field, both the point charges comprising the dipole will experience force, equal in magnitude and opposite in direction. Though the net force will always be zero, the torque will be in same direction for both the charges. Hence torque will not be zero.
Explanation:
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Answer:
Torque:
The measure of force that causes an object to rotate about an axis is known as torque. Torque is a vector quantity and its direction depends on the direction of the force on the axis. The magnitude of the torque vector is calculated as follows:
τ=FrsinΘ
where r is the length of the moment arm, and θ is the angle between the moment arm and the force vector.
Electric dipole:
A pair of electric charges with an equal magnitude but opposite charges separated by a distance d is known as an electric dipole. The electric dipole moment for this is defined as the product of the magnitude of these charges and the distance between them. The electric dipole moment is a vector having a defined direction from the negative charge to the positive charge.
p→=qd→
Derivation of Torque on an Electric Dipole
Electric dipole
Now, consider a dipole with charges +q and –q forming a dipole since they are a distance d away from each other. Let it be placed in a uniform electric field of strength E such that the axis of the dipole forms an angle θ with the electric field.
The force on the charges is
F+−→ = +qE→
F−−→ = −qE→
The components of force perpendicular to the dipole are:
F⊥+ = +qE sinθ
F⊥− = −qE sinθ
Since the force magnitudes are equal and are separated by a distance d, the torque on the dipole is given by:
Torque (τ) = Force × distance seperating forces
τ = d qE sin θ
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 seen from the above equation that the torque is the cross product of the dipole moment and electric field. Notice that the torque is in the clockwise direction (hence negative) in the above figure if the direction of Electric field is positive.
Thus,
τ = −pE sin θ
Or,
τ→ = p→ × E→
|τ→| = |p→ × E→| = pE sin θ
Summary
The measure of force that causes an object to rotate about an axis is known as a torque.
A pair of electric charges with an equal magnitude but opposite charges separated by a distance ‘d’ is known as an electric dipole.
Since the force magnitudes are equal and are separated by a distance d, the torque on the dipole is given by:
Torque (τ) = Force × distance separating forces
The torque on an electric dipole in a uniform electric field is given by the equation
|→τ| = |→p × →E| = pE sin θ