The real angle of dip, if a magnet is suspended at an angle of `30^(@)` to the magnetic meridian and the dip needle makes an angle of `45^(@)` with horizontal, is:

If a magnet is suspended at an angle 30^(@) to the magnetic meridian and in this plane the dip needle makes an angle of 60^(@) with the horizontal. The true value of dip is:

If a magnet is suspended at an angle 30∘ to the magnetic meridian and in thisplane the dip needle makes an angle of 60∘ with the horizontal. The true value of dip is

The angle of dip at the magnetic pole is

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

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

The angle of dip at the magnetic equator is

A magnetic needle is free to rotate in a vertical plane which makes an angle of 60^@ with the magnetic meridian. If the needle stays in a direction making an angle of tan^-1(2//sqrt3) with the horizontal, what would be the true dip at that place?