The dip at the poles is

The dip at a place is delta. For measuring it, the axis of the dip needle is perpendicular to the magnetic meridian. If the axis of the dip needle makes angle theta with the magnetic meridian, the apparent dip will be given tan delta_(1) which is equal to:

The correct value of dip angle at a place is 45^(@) . If the dip circle is rotated by 45^(@) out of the meridian, then the tangent of the angle of apparent dip at the place is

The angle of dip at the poles and the equator respectively are

STATEMENT-1 : A compass needle which is allowed to move in horizontal plane is taken to a geomagnetic pole . It will stay in any position . and STATEMENT-2 : Angle of dip at poles is 90^(@)

True dip at a place is 45^@ but dip circle shows an apparent dip of 60^@ . Dip circle is rotated through an angle 90^@ from initial orientation then what apparent dip will be shown by it?

The true dip at a place is 30^@ but a dip circle at that place shows an apparent dip of 45^@ . If the dip circle is now rotated through 90^@ , what will be the new apparent dip?

The true dip at a place is 30^(@) . What is the apparent dip when the dip circle is turned 60^(@) out of the magnetic meridian ?

The true dip at a place is 30^@ . In what plane is the dip apparently 60^@ ?