At a place true dip angle is 60°. The apparent dip when plane of dip circle is at an angle of 30° with the magnetic meridian is

The angle of dip at the magnetic equator is

The angle of dip at the magnetic equator is

The angle of dip at the magnetic pole is

The true value of angle of dip at a place is 60^(@) . The apparent angle of dip , when a magnetic needle is rotated through 30^(@) from the magnetic meridian at the same place , is

A dip circle is adjusted so that its needle moves freely in the magnetic meridian. In this position, the angle of dip ia 40^(@) . Now the dip circle is rotated so that the plane in which the needle moves makes an angle of 30^(@) with the magnetic meridian. In this position the needle will dip by an angle

The original value of the angle of dip at a place is 45^(@) what will be the apparent dip angle on a plane inclined at 60^(@) with the magnetic meridian ?

The angle of dip is the angle

If angle of dip shown by a dip circle at 30° with magnetic meridian is 60°, then the angle of dip shown by dip circle at 45° with magnetic meridian is

The value of dip at a place is 45^@ . The plane of the dip circle is turned through 60^@ from the magnetic meridian. Find the apparent value of dip.

A magnetic needle is free to rotate in a vertical plance which makes an angle of 60^@ with the magnetic meridian. If the needle stays in a direction making an angle of tan^(-1) (2sqrt(3)) with the horizontal, what would be the dip at that place?