162594 A bullet of mass \(m\) moving with a velocity \(v_1\) strikes a suspended wooden block of mass \(M\) as shown in the figure and sticks to it. If the block rises to a height \(h\) the initial velocity of the bullet is -

162595 A pump motor is used to deliver water at a certain rate from a given pipe. To obtain twice as much water from the same pipe in the same time, power of the motor has to be increased to :

162596 A mass of \(10 \mathrm{~g}\), moving horizontally with a velocity of \(100 \mathrm{~cm} / \mathrm{s}\), strikes the bob of a pendulum and sticks to it. The mass of the bob is also \(10 \mathrm{gm}\). The maximum height to which the system can be raised is \(\left(g=10 \mathrm{~m} / \mathrm{s}^2\right)\)

162597 If \(\vec{F}=-k(x \hat{i}+y \hat{j})\) Find work done from \((0,0)\) to (a, a):

162598 A particle moves in a potential region given by \(U=8 x^2-4 x+400 J\). Its state of equilibrium will be

162594 A bullet of mass \(m\) moving with a velocity \(v_1\) strikes a suspended wooden block of mass \(M\) as shown in the figure and sticks to it. If the block rises to a height \(h\) the initial velocity of the bullet is -

162595 A pump motor is used to deliver water at a certain rate from a given pipe. To obtain twice as much water from the same pipe in the same time, power of the motor has to be increased to :

162596 A mass of \(10 \mathrm{~g}\), moving horizontally with a velocity of \(100 \mathrm{~cm} / \mathrm{s}\), strikes the bob of a pendulum and sticks to it. The mass of the bob is also \(10 \mathrm{gm}\). The maximum height to which the system can be raised is \(\left(g=10 \mathrm{~m} / \mathrm{s}^2\right)\)

162597 If \(\vec{F}=-k(x \hat{i}+y \hat{j})\) Find work done from \((0,0)\) to (a, a):

162598 A particle moves in a potential region given by \(U=8 x^2-4 x+400 J\). Its state of equilibrium will be

162594 A bullet of mass \(m\) moving with a velocity \(v_1\) strikes a suspended wooden block of mass \(M\) as shown in the figure and sticks to it. If the block rises to a height \(h\) the initial velocity of the bullet is -

162595 A pump motor is used to deliver water at a certain rate from a given pipe. To obtain twice as much water from the same pipe in the same time, power of the motor has to be increased to :

162596 A mass of \(10 \mathrm{~g}\), moving horizontally with a velocity of \(100 \mathrm{~cm} / \mathrm{s}\), strikes the bob of a pendulum and sticks to it. The mass of the bob is also \(10 \mathrm{gm}\). The maximum height to which the system can be raised is \(\left(g=10 \mathrm{~m} / \mathrm{s}^2\right)\)

162597 If \(\vec{F}=-k(x \hat{i}+y \hat{j})\) Find work done from \((0,0)\) to (a, a):

162598 A particle moves in a potential region given by \(U=8 x^2-4 x+400 J\). Its state of equilibrium will be

162594 A bullet of mass \(m\) moving with a velocity \(v_1\) strikes a suspended wooden block of mass \(M\) as shown in the figure and sticks to it. If the block rises to a height \(h\) the initial velocity of the bullet is -

162595 A pump motor is used to deliver water at a certain rate from a given pipe. To obtain twice as much water from the same pipe in the same time, power of the motor has to be increased to :

162596 A mass of \(10 \mathrm{~g}\), moving horizontally with a velocity of \(100 \mathrm{~cm} / \mathrm{s}\), strikes the bob of a pendulum and sticks to it. The mass of the bob is also \(10 \mathrm{gm}\). The maximum height to which the system can be raised is \(\left(g=10 \mathrm{~m} / \mathrm{s}^2\right)\)

162597 If \(\vec{F}=-k(x \hat{i}+y \hat{j})\) Find work done from \((0,0)\) to (a, a):

162598 A particle moves in a potential region given by \(U=8 x^2-4 x+400 J\). Its state of equilibrium will be

162594 A bullet of mass \(m\) moving with a velocity \(v_1\) strikes a suspended wooden block of mass \(M\) as shown in the figure and sticks to it. If the block rises to a height \(h\) the initial velocity of the bullet is -

162595 A pump motor is used to deliver water at a certain rate from a given pipe. To obtain twice as much water from the same pipe in the same time, power of the motor has to be increased to :

162596 A mass of \(10 \mathrm{~g}\), moving horizontally with a velocity of \(100 \mathrm{~cm} / \mathrm{s}\), strikes the bob of a pendulum and sticks to it. The mass of the bob is also \(10 \mathrm{gm}\). The maximum height to which the system can be raised is \(\left(g=10 \mathrm{~m} / \mathrm{s}^2\right)\)

162597 If \(\vec{F}=-k(x \hat{i}+y \hat{j})\) Find work done from \((0,0)\) to (a, a):

162598 A particle moves in a potential region given by \(U=8 x^2-4 x+400 J\). Its state of equilibrium will be