Consider a finite charged rod. Electric field at point P (shown) makes an angle `theta` with horizontal dotted line then angle `theta` is:-

If a body is projected with an angle theta to the horizontal, then

Two particles are projected with same initial velocity one makes angle theta with horizontal while other makes an angle theta with vertical. If their common range is R then product of their time of flight is directly proportional to :

An electric dipole of moment p is placed with its centre at the origin along the x-axis. The electric field at a point P, whose position vector makes an angle theta with the x-axis, will make an angle…….. with the x-axis, when tan alpha = (tan theta)//2

A line makes an angle theta both with x-axis and y-axis. A possible range of theta is

A particle is fired from a point on the ground with speed u making an angle theta with the horizontal.Then

Consider a container having an inclined wall, inclined an angle theta with horizontal as shown in Fig. Calculate the force per unit width on the wall.

The maximum height attained by a projectile when thrown at an angle theta with the horizontal is found to be half the horizontal range. Then theta is equal to

An electric dipole is placed at the origin along x -axis.The electric field at any point , whose position vector , makes an angle theta with the x -axis ,makes an angle,

An electric point dipole is placed at the origin O with its dipolemoment along the X-axis . A point A is at a distance r from the origin such that OA makes an angle pi//3 with the X -axis if the electric field vec( E) due to the dipole at A makes an angle theta with the positive X-axis, the value of theta is

In a conical pendulum a small mass is revolving in horizontal circle with constant speed v at the end of the cord of length L that makes an angle theta with the vertical as shown . The value of angle theta would be (where r is the radius of circle)