154109 The total intensity of earth's magnetic field at the poles is $\mathbf{7}$ units. Its value at the equator is

154110 Torques $\tau_{1}$ and $\tau_{2}$ are required for a magnetic needle to remain perpendicular to the magnetic field $B_{1}$ and $B_{2}$ at two different places. The ratio $B_{1} / B_{2}$ is

154111 The earth's magnetic field at a certain place has a horizontal component $0.3 \mathrm{G}$ and the total strength $0.5 \mathrm{G}$. The angle of dip is

154112 The total intensity of the earth's magnetic field at equator is 5 units. What is its value at the poles?

154113 A magnetic dipole is placed horizontally with the north pole pointing towards north. The horizontal component of earth's magnetic field is $20 \mu \mathrm{T}$. If the neutral point is found at a distance of $20 \mathrm{~cm}$ in the plane bisecting the dipole then the magnetic moment of the dipole is:
(Assume $\mu_{0}=4 \pi \times 10^{-7} \mathrm{~S}$.I units)

154109 The total intensity of earth's magnetic field at the poles is $\mathbf{7}$ units. Its value at the equator is

154110 Torques $\tau_{1}$ and $\tau_{2}$ are required for a magnetic needle to remain perpendicular to the magnetic field $B_{1}$ and $B_{2}$ at two different places. The ratio $B_{1} / B_{2}$ is

154111 The earth's magnetic field at a certain place has a horizontal component $0.3 \mathrm{G}$ and the total strength $0.5 \mathrm{G}$. The angle of dip is

154112 The total intensity of the earth's magnetic field at equator is 5 units. What is its value at the poles?

154113 A magnetic dipole is placed horizontally with the north pole pointing towards north. The horizontal component of earth's magnetic field is $20 \mu \mathrm{T}$. If the neutral point is found at a distance of $20 \mathrm{~cm}$ in the plane bisecting the dipole then the magnetic moment of the dipole is:
(Assume $\mu_{0}=4 \pi \times 10^{-7} \mathrm{~S}$.I units)

154109 The total intensity of earth's magnetic field at the poles is $\mathbf{7}$ units. Its value at the equator is

154110 Torques $\tau_{1}$ and $\tau_{2}$ are required for a magnetic needle to remain perpendicular to the magnetic field $B_{1}$ and $B_{2}$ at two different places. The ratio $B_{1} / B_{2}$ is

154111 The earth's magnetic field at a certain place has a horizontal component $0.3 \mathrm{G}$ and the total strength $0.5 \mathrm{G}$. The angle of dip is

154112 The total intensity of the earth's magnetic field at equator is 5 units. What is its value at the poles?

154113 A magnetic dipole is placed horizontally with the north pole pointing towards north. The horizontal component of earth's magnetic field is $20 \mu \mathrm{T}$. If the neutral point is found at a distance of $20 \mathrm{~cm}$ in the plane bisecting the dipole then the magnetic moment of the dipole is:
(Assume $\mu_{0}=4 \pi \times 10^{-7} \mathrm{~S}$.I units)

154109 The total intensity of earth's magnetic field at the poles is $\mathbf{7}$ units. Its value at the equator is

154110 Torques $\tau_{1}$ and $\tau_{2}$ are required for a magnetic needle to remain perpendicular to the magnetic field $B_{1}$ and $B_{2}$ at two different places. The ratio $B_{1} / B_{2}$ is

154111 The earth's magnetic field at a certain place has a horizontal component $0.3 \mathrm{G}$ and the total strength $0.5 \mathrm{G}$. The angle of dip is

154112 The total intensity of the earth's magnetic field at equator is 5 units. What is its value at the poles?

154113 A magnetic dipole is placed horizontally with the north pole pointing towards north. The horizontal component of earth's magnetic field is $20 \mu \mathrm{T}$. If the neutral point is found at a distance of $20 \mathrm{~cm}$ in the plane bisecting the dipole then the magnetic moment of the dipole is:
(Assume $\mu_{0}=4 \pi \times 10^{-7} \mathrm{~S}$.I units)

154109 The total intensity of earth's magnetic field at the poles is $\mathbf{7}$ units. Its value at the equator is

154110 Torques $\tau_{1}$ and $\tau_{2}$ are required for a magnetic needle to remain perpendicular to the magnetic field $B_{1}$ and $B_{2}$ at two different places. The ratio $B_{1} / B_{2}$ is

154111 The earth's magnetic field at a certain place has a horizontal component $0.3 \mathrm{G}$ and the total strength $0.5 \mathrm{G}$. The angle of dip is

154112 The total intensity of the earth's magnetic field at equator is 5 units. What is its value at the poles?

154113 A magnetic dipole is placed horizontally with the north pole pointing towards north. The horizontal component of earth's magnetic field is $20 \mu \mathrm{T}$. If the neutral point is found at a distance of $20 \mathrm{~cm}$ in the plane bisecting the dipole then the magnetic moment of the dipole is:
(Assume $\mu_{0}=4 \pi \times 10^{-7} \mathrm{~S}$.I units)