Home
Class 11
PHYSICS
[" Two springs with neglighle masses and...

[" Two springs with neglighle masses and force constant of "K_(1)=200Nm^(-1)" and "K_(3)=160Nm" .are "],[" amached to the block of mass "m=10kg" as shown in the figure.Initially the block is at reat at the "],[" equilibrium position in which both springs are neither strectiched nor comprexed At time te a cenner "],[" impulibre of "50N" s a given to the block with a hammer."],[qquad [K_(1)],[" (A) Maximum velocity of the mass "m" during its oscillation is "5ms^(-1).],[" (D) Amplitude of oscillation is "0.42m.]]

Promotional Banner

Similar Questions

Explore conceptually related problems

Two springs with negligible masses and force constants k_1=200(N)/(m) and K_2=160(N)/(m) are attached to the block of mass m=10kg as shown in the fig. Initially the block is at rest, at the equilibrium position which both springs are neither stretched nor compressed. At time t=0 , sharp impulse of 50Ns is given to the block with a hammer along the spring.

Two springs with negligible massess and force constant of k_(1)= 200 Nm^(-1) and k_(2)=160Nm^(-1) are attached to the block of mass m = 10kg as shown in the figure. Initially the block is at rest at the equilibrium position the block is at rest at the equilibrium position nor compressed. At time t=0, sharp impulse of 50 N-s is given to the block.

Two springs with negligible massess and force constant of k_(1)= 200 Nm^(-1) and k_(2)=160Nm^(-1) are attached to the block of mass m = 10kg as shown in the figure. Initially the block is at rest at the equilibrium position the block is at rest at the equilibrium position nor compressed. At time t=0, sharp impulse of 50 N-s is given to the block.

Two springs with negligible massess and force constant of k_(1)= 200 Nm^(-1) and k_(2)=160Nm^(-1) are attached to the block of mass m = 10kg as shown in the figure. Initially the block is at rest at the equilibrium position the block is at rest at the equilibrium position ir. Which both springs are neither stretched nor compressed. At time t = 0, sharp impulse of 50 N-s is given to the block in horizontal direction.

Two springs with negligible massess and force constant of k_(1)= 200 Nm^(-1) and k_(2)=160Nm^(-1) are attached to the block of mass m = 10kg as shown in the figure. Initially the block is at rest at the equilibrium position the block is at rest at the equilibrium position ir. Which both springs are neither stretched nor compressed. At time t = 0, sharp impulse of 50 N-s is given to the block in horizontal direction.

Two identical springs of spring constant k are attached to a block of mass m and to fixed supports as shown in figure. When the mass is displaced from equilibrium position by a distance x towards right, find the restoring force.

Two identical springs of spring constant k are attached to a block of mass m and to fixed supports as shown in figure. When the mass is displaced from equilibrium position by a distance x towards right, find the restoring force.

A 5 kg block in connected with two spring A and B having force constant, K_1 = 200N/m and K_2 = 300 N/m respectively as shown in the figure . The block is released from rest with both the springs in natural length. The maximum energy stored in the spring A will be

The block of mass m_1 shown in figure is fastened to the spring and the block of mass m_2 is placed as against it. Find the compression of the spring in the equilibrium position.

A 2kg block is connected with two springs of force constants K_(1)=100 N/m and K_(2)=300 N/m as shown in figure. The block is released from rest with the springs unstretched. Find the acceleration of the block in its lowest position (g=10 m//s^(2))