360674 The angle of dip at a place on the earth gives

360675 A dip needle lies initially in the magnetic meridian when it shows an angle of \(\operatorname{dip} \theta\) at a place. The dip circle is rotated through an angle \(x\) in the horizontal plane and then it shown an angle of \(\operatorname{dip} \theta^{\prime}\). Then \(\dfrac{\tan \theta^{\prime}}{\tan \theta}\) is

360676 The horizontal component of earth's magnetic field at a place is \({0.3 \times 10^{-4} {~T}}\). If the angle of dip is \({60^{\circ}}\), what is the total earth's magnetic field in \({\mu {T}}\) ?

360677 If the angle of dip at two places are \(30^{\circ}\) and \(45^{\circ}\) respectively, then the ratio of horizontal components of earth's magnetic field at the two places will be (Given total field at the two places is same)

360678 The earth's magnetic field at a certain place has a horizontal component of 0.3\(G\) and total strength 0.5\(G\). The angle of dip in \(\delta\), then

360674 The angle of dip at a place on the earth gives

360675 A dip needle lies initially in the magnetic meridian when it shows an angle of \(\operatorname{dip} \theta\) at a place. The dip circle is rotated through an angle \(x\) in the horizontal plane and then it shown an angle of \(\operatorname{dip} \theta^{\prime}\). Then \(\dfrac{\tan \theta^{\prime}}{\tan \theta}\) is

360676 The horizontal component of earth's magnetic field at a place is \({0.3 \times 10^{-4} {~T}}\). If the angle of dip is \({60^{\circ}}\), what is the total earth's magnetic field in \({\mu {T}}\) ?

360677 If the angle of dip at two places are \(30^{\circ}\) and \(45^{\circ}\) respectively, then the ratio of horizontal components of earth's magnetic field at the two places will be (Given total field at the two places is same)

360678 The earth's magnetic field at a certain place has a horizontal component of 0.3\(G\) and total strength 0.5\(G\). The angle of dip in \(\delta\), then

360674 The angle of dip at a place on the earth gives

360675 A dip needle lies initially in the magnetic meridian when it shows an angle of \(\operatorname{dip} \theta\) at a place. The dip circle is rotated through an angle \(x\) in the horizontal plane and then it shown an angle of \(\operatorname{dip} \theta^{\prime}\). Then \(\dfrac{\tan \theta^{\prime}}{\tan \theta}\) is

360676 The horizontal component of earth's magnetic field at a place is \({0.3 \times 10^{-4} {~T}}\). If the angle of dip is \({60^{\circ}}\), what is the total earth's magnetic field in \({\mu {T}}\) ?

360677 If the angle of dip at two places are \(30^{\circ}\) and \(45^{\circ}\) respectively, then the ratio of horizontal components of earth's magnetic field at the two places will be (Given total field at the two places is same)

360678 The earth's magnetic field at a certain place has a horizontal component of 0.3\(G\) and total strength 0.5\(G\). The angle of dip in \(\delta\), then

360674 The angle of dip at a place on the earth gives

360675 A dip needle lies initially in the magnetic meridian when it shows an angle of \(\operatorname{dip} \theta\) at a place. The dip circle is rotated through an angle \(x\) in the horizontal plane and then it shown an angle of \(\operatorname{dip} \theta^{\prime}\). Then \(\dfrac{\tan \theta^{\prime}}{\tan \theta}\) is

360676 The horizontal component of earth's magnetic field at a place is \({0.3 \times 10^{-4} {~T}}\). If the angle of dip is \({60^{\circ}}\), what is the total earth's magnetic field in \({\mu {T}}\) ?

360677 If the angle of dip at two places are \(30^{\circ}\) and \(45^{\circ}\) respectively, then the ratio of horizontal components of earth's magnetic field at the two places will be (Given total field at the two places is same)

360678 The earth's magnetic field at a certain place has a horizontal component of 0.3\(G\) and total strength 0.5\(G\). The angle of dip in \(\delta\), then

360674 The angle of dip at a place on the earth gives

360675 A dip needle lies initially in the magnetic meridian when it shows an angle of \(\operatorname{dip} \theta\) at a place. The dip circle is rotated through an angle \(x\) in the horizontal plane and then it shown an angle of \(\operatorname{dip} \theta^{\prime}\). Then \(\dfrac{\tan \theta^{\prime}}{\tan \theta}\) is

360676 The horizontal component of earth's magnetic field at a place is \({0.3 \times 10^{-4} {~T}}\). If the angle of dip is \({60^{\circ}}\), what is the total earth's magnetic field in \({\mu {T}}\) ?

360677 If the angle of dip at two places are \(30^{\circ}\) and \(45^{\circ}\) respectively, then the ratio of horizontal components of earth's magnetic field at the two places will be (Given total field at the two places is same)

360678 The earth's magnetic field at a certain place has a horizontal component of 0.3\(G\) and total strength 0.5\(G\). The angle of dip in \(\delta\), then