Nonuniform Electric Field Net Force at David Blackshear blog

Nonuniform Electric Field Net Force. (b) the dipole moment is a convenient way to characterize this effect. A neutral conductor (or dielectric) experiences a torque, but no net force, when placed in a uniform electric field. (a) the net force on the dipole is zero, but the net torque is not. As a result, the dipole rotates, becoming aligned with the external field. Force on dipole in nonuniform e field if e changes with position, the forces on each charge in a simple dipole will no longer in general be equal. [math]\displaystyle{ f = ( p \dot\ \nabla ) e(r) }[/math] where. A dielectric object in a nonuniform field feels a force toward regions of higher field strength.

(b) the dipole moment is a convenient way to characterize this effect. [math]\displaystyle{ f = ( p \dot\ \nabla ) e(r) }[/math] where. A neutral conductor (or dielectric) experiences a torque, but no net force, when placed in a uniform electric field. Force on dipole in nonuniform e field if e changes with position, the forces on each charge in a simple dipole will no longer in general be equal. A dielectric object in a nonuniform field feels a force toward regions of higher field strength. (a) the net force on the dipole is zero, but the net torque is not. As a result, the dipole rotates, becoming aligned with the external field.

When does an electric dipole placed in a nonuniform electric field

Nonuniform Electric Field Net Force A dielectric object in a nonuniform field feels a force toward regions of higher field strength. A dielectric object in a nonuniform field feels a force toward regions of higher field strength. Force on dipole in nonuniform e field if e changes with position, the forces on each charge in a simple dipole will no longer in general be equal. A neutral conductor (or dielectric) experiences a torque, but no net force, when placed in a uniform electric field. As a result, the dipole rotates, becoming aligned with the external field. (b) the dipole moment is a convenient way to characterize this effect. [math]\displaystyle{ f = ( p \dot\ \nabla ) e(r) }[/math] where. (a) the net force on the dipole is zero, but the net torque is not.

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