359340 An electric field of \(2000\;V/m\) is applied to an electric dipole at an angle of \(60^{\circ}\). The value of electric dipole moment is \({10^{ - 29}}Cm\). The potential energy of the electric dipole is found to be \(N \times {10^{ - M}}\). Find the value of \(N + M\) is

359341 Assertion :
In the absence of an external electric field, the dipole moment per unit volume of a polar dielectric is zero.
Reason :
The dipoles of a polar dielectric are randomly oriented.

359342 The total dipole moment of dielectric with polar molecules in absence of an external electric field is

359343 A dipole is placed in an electric field as shown. In which direction will it move?

359344 Figure shows electric field lines in which an electric dipole \(P\) is placed as shown. Which of the following statements is correct?

359340 An electric field of \(2000\;V/m\) is applied to an electric dipole at an angle of \(60^{\circ}\). The value of electric dipole moment is \({10^{ - 29}}Cm\). The potential energy of the electric dipole is found to be \(N \times {10^{ - M}}\). Find the value of \(N + M\) is

359341 Assertion :
In the absence of an external electric field, the dipole moment per unit volume of a polar dielectric is zero.
Reason :
The dipoles of a polar dielectric are randomly oriented.

359342 The total dipole moment of dielectric with polar molecules in absence of an external electric field is

359343 A dipole is placed in an electric field as shown. In which direction will it move?

359344 Figure shows electric field lines in which an electric dipole \(P\) is placed as shown. Which of the following statements is correct?

359340 An electric field of \(2000\;V/m\) is applied to an electric dipole at an angle of \(60^{\circ}\). The value of electric dipole moment is \({10^{ - 29}}Cm\). The potential energy of the electric dipole is found to be \(N \times {10^{ - M}}\). Find the value of \(N + M\) is

359341 Assertion :
In the absence of an external electric field, the dipole moment per unit volume of a polar dielectric is zero.
Reason :
The dipoles of a polar dielectric are randomly oriented.

359342 The total dipole moment of dielectric with polar molecules in absence of an external electric field is

359343 A dipole is placed in an electric field as shown. In which direction will it move?

359344 Figure shows electric field lines in which an electric dipole \(P\) is placed as shown. Which of the following statements is correct?

359340 An electric field of \(2000\;V/m\) is applied to an electric dipole at an angle of \(60^{\circ}\). The value of electric dipole moment is \({10^{ - 29}}Cm\). The potential energy of the electric dipole is found to be \(N \times {10^{ - M}}\). Find the value of \(N + M\) is

359341 Assertion :
In the absence of an external electric field, the dipole moment per unit volume of a polar dielectric is zero.
Reason :
The dipoles of a polar dielectric are randomly oriented.

359342 The total dipole moment of dielectric with polar molecules in absence of an external electric field is

359343 A dipole is placed in an electric field as shown. In which direction will it move?

359344 Figure shows electric field lines in which an electric dipole \(P\) is placed as shown. Which of the following statements is correct?

359340 An electric field of \(2000\;V/m\) is applied to an electric dipole at an angle of \(60^{\circ}\). The value of electric dipole moment is \({10^{ - 29}}Cm\). The potential energy of the electric dipole is found to be \(N \times {10^{ - M}}\). Find the value of \(N + M\) is

359341 Assertion :
In the absence of an external electric field, the dipole moment per unit volume of a polar dielectric is zero.
Reason :
The dipoles of a polar dielectric are randomly oriented.

359342 The total dipole moment of dielectric with polar molecules in absence of an external electric field is

359343 A dipole is placed in an electric field as shown. In which direction will it move?

359344 Figure shows electric field lines in which an electric dipole \(P\) is placed as shown. Which of the following statements is correct?