The true value of dip at a place is `30^(@).` The verticle plane carrying the needle is tumed through `45^(@)` from the magnetic meridian. Calsulate the apparent value of dip.

The true value of dip at a place is 30^(@) . The vertical plane carrying the needle is turned through 45^(@) from the magnetic meridian . Calculate the apparent value of dip .

The true value of dip at a place is 30^(@) . The vertical plane carrying needle is turned through 30^(@) from magnetic meridian . Calculate apparent value of angle of dip .

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

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

At 45^@ to the magnetic meridian, the apparent dip is 30^@ . Find the true dip.

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?

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 ?

Aparant angle of a dip is 30° in a plane at 45° from the magnetic meridian, then the true dip is

At a place the true value of angle of dip is 60^(@) . If dip circle is rotated by phi^(@) from magnetic meridian, the angle of dip is found to be tan^(-1)(2) . Then the value of phi is