For the equilibrium situation shown, the cords are strong enough to with stand a maximum tension 100 N. what is the largest value of W (in N) that they can support as shown ?

In the situation shown, the tension in the string is 22N. What is m (in kg) ?

In the circuit shown in fig. 7.24 , all the resistors are rated at a maximum power of 1.00 W . What is the maximum emf epsilon that the battery can have without burning up any of the resistors?

In the interhalogen compound AB_(n) , what is the maximum value of n ?

Find the largest value of n in the 10^(n) which can exactly divide 1000!.

A monkey of mass 20 kg climbs on a rope which can stand a maximum tension of 300 N. In which of the following case will the rope break . The monkey

A string of length 50 cm is vibrating with a fundamental frequency of 400 Hz in horizontal position. In the fundamental mode the maximum displacement at the middle is 2 cm from equilibrium position and the tension in the string is 10 N . Determine the maximum value of the vertical component of force on the end supporting.

A string of length 50 cm is vibrating with a fundamental frequency of 400 Hz in horizontal position. In the fundamental mode the maximum displacement at the middle is 2 cm from equilibrium position and the tension in the string is 10 N . Determine the maximum value of the vertical component of force on the end supporting.

A ball of mass 0.5 kg is attached to a light string of length 2m. The ball is whirled on la horizontal smooth surface is a circle of rdius 2 m as shown in fig. If the string can withstand tension up to 100 N, what is the maximum speed at which the bal can be whirled.

Consider the situation as shown in the figure. The maximum value of m so that the blocks do not move is