For dipole `q=2 xx 10^(-6) C and d = 0.01 m`, calculate the maximum torque for this dipole if `E = 5 xx 10^(5) N//C`

For a dipole q= 2xx10^(-6)C and d= 0.01m . Calculate the maximum torque for this dipole if E= 5xx10^(5)N//C

For a dipole q= 2xx10^(-6)C and d= 0.01m . Calculate the maximum torque for this dipole if E= 5xx10^(5)N//C

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^(@) .

Two opposite and equal chrages 4 xx 10^(-8) coulomb when placed 2 xx 10^(-2) cm away, from a dipole. If dipole is placed in an external electric field 4 xx 10^(8) newton/coulomb, the value of maximum torque and the work done in rotating it through 180^(@) will be

An electric dipole consisting of two opposite charges of 2xx10^(-6)C each separated by a distance of 3 cm is placed in an electirc field of 2xx10^(5)N//C . The maximum torque on the dipole is will be

An electrtic dipole with dipole moment 4xx10^(-9) C m is aligned at 30^(@) with the direction of a uniform electric field of magnitude 5xx10^(4) NC^(-1) . Calculate the magnitude of the torque acting on the dipole .

A wheel has moment of inertia 5 xx 10^(-3) kg m^(2) and is making 20 "rev" s^(-1) . The torque needed to stop it in 10 s is….. xx 10^(-2) N-m

Two point charges of 3.2 xx 10^-19 C and -3.2 xx 10^-19 C are separated from each other by 2.4 xx 10^-10 m . The dipole is situated in a uniform electric field of intensity 4 xx 10^5 Vm^-1 . Calculate the work done in roating the dipole by 180^(@) .

Calculate torque acting on a bar magnet of length 20 cm magnetic dipole moment 4 xx 10^(-6) Am^(2) , which is placed in earth's magnetic field of flux density 2 xx 10^(-5) T , perpendicular to the field .

An electron is moving in a cyclotron at a speed of 3.2 xx 10^(7) m s^(-1) in a magnetic field of 5 xx 10^(-4) T perpendicular to it. What is the frequency of this electron? (q=1.6xx10^(-19)C, m_(c)=9.1xx10^(-31)kg)