Maximum torque acting on an electric dipole of moment `3 xx 10^(-29)` Cm in a uniform electric field E is `6 xx10^(-25)` Nm. Find E.

The torque acting on an electric dipole of moment p held at an angle theta with an electric field E is ………. .

An electric dipole of dipole moment p is placed in a uniform external electric field E. Then, the

An electric dipole of dipole moment p = 5 xx 10^(-18)C - m lying along unifrom electric field E = 4 xx 10^(4) NC^(-1) . Calculate the work done is rotating the dipole by 60^(@) .

Obtain the expression for the torque vec(tau) experienced by an electric dipole of dipole moment vec(p) in a uniform electric field , vec(E )

At what angle of electric dipole moment with uniform electric field, potential energy is maximum ?

Two point-charges +2e and -2 e are situated at a distance of 2.4 Å from each other and constitude an electric dipole. This dipole is placed in a uniform electric field of 4.0 xx 10^(5) "Vm"^(-1) . Calculate (i) electric dipole moment, (ii) potential energy of the dipole in equilibrium position, (iii) work done in rotating the dipole through 180^(@) from the equilibrium position.

Two charges +3.2 xx 10^(-19)C and -3.2 xx 10^(-19)C placed at 2.4A^(@) apart form an electric dipole. It is placed in a uniform electric field of intensity 4 xx 10^(5) volt/m. The electric dipole- moment is

An electric dipole of moment vecP=(hati+3hatj-5hatk)xx10^(-19)Cm is kept in a electric field vecE=(2hati-3hatj+2hatk)xx10^(5)V/m . Find torque experienced by dipole.

A point charge of 5xx10^(-6)C experiences a force of 2xx10^(-3)N when kept in a uniform electric field of intensity E. Find E.

An electric dipole of dipole moment p = 6 * 10^-4 C m is placed in a uniform external electric field of intensity 2*10^5(N/C) as shown in the figure, The anglebetween net electric field with external electric field at point A will be (epsilon