A bar magnet having centre `O` has a length of `4 cm`. Point `P_(1)` is in the broad side-on and `P_(2)` is in the end side-on position with `OP_(1)=OP_(2)=10 metres`. The ratio of magnetic intensities `H` at `P_(1)` and `P_(2)` is

If P-=(1,2,3) then direction cosines of OP are

Find magnetic field at centre P if length of side of square loop is 20 cm.

AP is tangent to circle O at point P, What is the length of OP?

The ratio of magnetic fields due to a bar magnet at the two axial points P_(1) and P_(2) which are separated from each other by 10 cm is 25 :2 . Point P_(1) is situated at 10 cm from the centre of the magnet. Magnetic length of the bar magnet is (Points P_(1) and P_(2) are on the same side of magnet and distance of P_(2) from the centre is greater than distance of P_(1) from the centre of magnet)

Due to a small magnet intensity at a distance x in the end on position is 9 Gauss. What will be the intensity at a distance (x)/(2) on broad side on position?

A light source is located at P_(1) as shown in the figure. All sides of the polygon are equal. The intensity of illumination at P_(2) is I_(0) . What will be the intensity of illumination at P_(3)

If P be any point on the plane ln+my+nz=P and Q be a point on the line OP such that (OP)(OQ)=P^(2). The locus of point Q is

If P is any point on the plane lx+my+nz=p and Q is a point on the line OP such that OP.OQ=p^(2), then find the locus of the point Q.