A dip circle is adjusted so that its nee...

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

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A dip circle is so set that the dip needle moves freely in the magnetic meridian. In this position the angle of dip is 39^(@) . 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 -

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

At an angle of 30^(@) to the magnetic meridian, the apparent dip is 45^(@) . Find the true dip:

At magnetic poles of earth, angle of dip is

A dip circle is at right angles to the magnetic meridian. What will be the apparent dip ?

The angle of dip in a plane at an angle of 30^@ with magnetic meridian is 45^@ .The value of true Dip is

A dip needle arranged to move freely in the magnetic meridian dips by an angle theta . The vertical plane in which the needle moves is now rotated through an angle alpha from the magnetic meridian. Through what angle the needle will dip in the new position?

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