A molecule of a substance has a permanent electric dipole moment of magnitude `10^(-29) `C m. A mole of this substance is polarized at low temperature by appling a strong elecrostatic field of magnitude `10^(6) V m^(-1)`. The direction of the field is suddenly changed by an angle of `60^(@)`. Estimate the heat released by the substance in aligning its dipole along the new direction of the field. For simplicity, assume `100%` polarisation of sample.

A molecule of a substance has a permanent electric dipole moment of magnitude 10^(-29) C m. A mole of this substance is polarised (at low temperature) by applying a strong electrostatic field of magnitude 10^(6) V m^(-1) . The direction of the field is suddenly changed by an angle of 60^(@) . Estimate the heat released by the substance in aligning its dipoles along the new direction of the field. For simplicity, assume 100% polarisation of the sample.

A molecule of a substance has a permanent electric dipole moment of magnitude 10^(-30) Cm. A mole of this substance is polarised (at low temperature) by applying a strong electrostatic field of magnitude 10^(7) vm^(-1) . The direction of the field is suddenly changed by an angle of 60^(@) . Estimate the heat released by the substance in aligning its dipole along the new direction of the field. For simplicity assume 100 % polarisation of the sample. 1 mole = 6 xx 10^(23) molecule.

A molecule of a substance has a permanent electric dipole moment of magnitude 10^(-29) Cm. A mole of this substance is polarised (at low temperature) by applying a strong electrostatic field of magnitude 10^6 V m^(-1). The direction of the field is suddenly changed by an angle of 60^@ . Estimate the heat released by the substance in aligning its dipoles along the new direction of the field. Assume 100% polarisation of the sample.

A molecule of a substance has a permanent electric dipole moment of magnitude 10^-29C m. A mole of this substance is polarised ( at low temperature )by applying a strong electrostatic field of magnitude 10^6Vm^-1 . The direction of the field is suddenly changed by an angle of 60^@ . Estimate the heat released by the substance in aligning its dipoles along the new direcation of the field. For simplicity. assume 100% polarisation of the sample .

A molecule of a substance has a permanent electric moment of magnitude 10^(-29)Cm . A mole of this substnace is polarised by applying a strong electrostatic field of magnitude 10^(6)Vm^(-1) . The direction of the field is suddenly changed by a angle of 60^(@) . estimate the heat released by the substance in alighning its dipoles along the new direction of the field. for simplicity, assume 100% polarisation of the sample.

A molecule of a substance has permanent dipole moment p. A mole of this substance is polarised by applying a strong electrostatic field E. The direction of the field is suddenly changed by an angle of 60^(@) . If N is the Avogadro's nwnber the amount of work done by the field is ......

A molecule of a substance has permanent dipole moment p. A mole of this substance is polarised by applying a strong electrostatic field E. The direction of the field is suddenly changed by an angle of 60^(@) . If N is the Avogadro's number the amount of work done by the field is