A simple pendulum of Length `l` and mass (M) is oscillating in a plane about a vertical line between the angular limits `-phi "to" +phi`. For an angular displacement `theta ( lt |phi|)`, , the tension in the string T and velocity of the bob V are related as-

A simple pendulum of length L and mass (bob) M is oscillating in a plane about a vertical line between angular limit -phi and +phi . For an angular displacement theta(|theta|ltphi) , the tension in the string and the velocity of the bob are T and V respectively. The following relations hold good under the above conditions:

A simple pendulum of length L and mass (bob) M is oscillating in a plane about a vertical line between angular limit -phi and +phi . For an angular displacement theta(|theta|ltphi) , the tension in the string and the velocity of the bob are T and V respectively. The following relations hold good under the above conditions:

A simple pendulum of length L and mass (bob) M is oscillating in a plane about a vertical line between angular limits -phi and +phi For an angular displacement theta(|theta|ltphi). the tension in the string and the velocity of the bob are T and v respectively. The following relations hold good under the above conditions T-Mgcostheta=(Mv^(2))/(L) T costheta=Mg The magnitude of the tangential acceleration of the bob |a_(T)|=gsintheta T=Mgcostheta

A simple pendulum of length L and bob of mas M is oscilating in a plane about a vertical line between angular limits - phi and phi . For an angular displacement theta . [|theta lt phi|][|theta| lt phi] the tension in the string and velocity of the bob are T And v respectively. The following relations hold good under the above conditions:

A simple pendulum of length L and mass M is oscillating about a vertical line with angular amplitude theta . If for an angular displacement phi (phi>theta) the tension in the string is T_1 and for angular amplitude theta the tension is T_2 , then