A pendulum bob swings along a circular path on a smooth inclined plane as shown in figure, where `m=3kg`, `l=0.75m`, `theta=37^@`. At the lowest point of the circle the tension in the string is `T=274N`. Take `g=10ms^-2`.

The speed of the bob at the highest point on the circle is

A pendulum bob swings along a circular path on a smooth inclined plane as shown in figure, where m=3kg , l=0.75m , theta=37^@ . At the lowest point of the circle the tension in the string is T=274N . Take g=10ms^-2 . The speed of the bob at the lowest point is

A pendulum bob swings along a circular path on a smooth inclined plane as shown in figure, where m=3kg , l=0.75m , theta=37^@ . At the lowest point of the circle the tension in the string is T=274N . Take g=10ms^-2 . The speed of the bob at the lowest point is

A pendulum bob swings along a circular path on a smooth inclined plane as shown in figure, where m=3kg , l=0.75m , theta=37^@ . At the lowest point of the circle the tension in the string is T=274N . Take g=10ms^-2 . The tension in the string at the highest position is

A pendulum bob swings along a circular path on a smooth inclined plane as shown in figure, where m=3kg , l=0.75m , theta=37^@ . At the lowest point of the circle the tension in the string is T=274N . Take g=10ms^-2 . The tension in the string at the highest position is

A pendulum bob can swing along a ciircular path on a smooth inclined plane, as shown in Fig. 3E.31, where m = 1.2 kg, 1 = .075m, theta = 37^(@) . At the lowest point of the circle the tension in the sting is T = 110 N . Determine (a) the speed of the bob at the lowest point, (b) the speed of the bob at the highest point on the circle and (c) the tension in the string at the highest position (a)

A stone of mass 1kg tied to a light inextensible string of length L=10m is whirling in a circular path of radius L in vertical plane. If the ratio of the maximum tension in the string to the minimum tension in the string is 4 and if g is taken to be 10ms^(-2) , the speed of the stone at the highest point of the circle is.

A stone of mass 1kg tied to a light inextensible sstring of length L=10m is whirling in a circular path of radius L in vertical plane. If the ratio of the maximum tension in the string to the minimmum tension in the string is 4 and if g is taken to be 10ms^(-2) , the speed of the stone at the highest point of the circle is.

A stone of mass 1 kg tied to a light inextensible string of lenth L=(10)/(3)m , whirling in a circular path in a vertical plane. The ratio of maximum tension to the minimum tension in the string is 4. If g is taken to be 10ms^(-2) , the speed of the stone at the highest point of the circle is

A stone of mass 1 kg tied to a light inextensible string of lenth L=(10)/(3)m , whirling in a circular path in a vertical plane. The ratio of maximum tension to the minimum tension in the string is 4. If g is taken to be 10ms^(-2) , the speed of the stone at the highest point of the circle is