Suppose the bob of the previous problem has a speed of 1.4 m/s when the string makes an angle of 0.20 radian with the vertical. Find the tension at this instant. You can use `costheta=1-theta^2/2 and sintheta=theta` for small theta`.

Find the equation of the tangent line to the curve x=1-costheta,\ y=theta-sintheta at theta=pi//4 .

A block of mass M si suspended by two strings angles theta_(1) and theta_(2) with the horizontal. Find the tensions in the strings.

Find the equation of the tangent to the curve x=theta+sintheta , y=1+costheta at theta=pi//4 .

A simple pendulum is constructed by attaching a bob of mas m to a string of length L fixed at its upper end. The bob oscillates in a vertical circle. It is found that the speed of the bob is v when the string makes an angle theta with the vertical. Find the tension in the string at this instant.

If sintheta+costheta=1 , then the value of sin2theta is

A pendulum bob of mass m charge q is at rest with its string making an angle theta with the vertical in a uniform horizontal electric field E. The tension in the string in

A 8kg stone tied at the end of a string 1 metre long is whirled in a vertical circle. At the instant when the string makes an angle theta with the vertical, the speed of the stone is 4ms^(-1) and the tension in the thread is 104N. Then theta is.

(sintheta)/(1+costheta) + (1+costheta)/(sintheta) = 2 cosec theta

A simple pendulum of length l and mass (bob) m is suspended vertically. The string makes an angle theta with the vertical. The restoring force acting on the pendulum is

A simple pendulum of length I and mass (bob) m is suspended vertically. The string makes an angle theta with the vertical. The restoring force acting on the pendulum is