А A mals 8 2 Figure shows the vertical Section surface. A block of kg rest from position A, its position of a frictionless released from as it reaches KE mo 5 집 X2 my C is 1 x2 xxo x

Figure shows the vertical section of a frictionless surface. A block of mass 2kg is released from rest from position A, its KE as it reaches position C is ( g=10ms^-2 )

Figure shows the vertical section of a frictionless surface. A block of mass 2kg is released from rest from position A, its KE as it reaches position C is ( g=10ms^-2 )

A 100 g block is connected to a horizontal massless spring of force constant 25.6(N)/(m) As shown in Fig. the block is free to oscillate on a horizontal frictionless surface. The block is displaced 3 cm from the equilibrium position and , at t=0 , it is released from rest at x=0 It executes simple harmonic motion with the postive x-direction indecated in Fig. The position time (x-t) graph of motion of the block is as shown in Fig. When the block is at position C on the graph, its

A block whose mass m is 680g is fastened to a spring whose spring constant k is 65N/m. The block is pulled a distance x=11cm from its equilibrium position at x=0 on a frictionless surface and released from rest at t= 0. What is the amplitude of the oscillation?

A block whose mass m is 680g is fastened to a spring whose spring constant k is 65N/m. The block is pulled a distance x=11cm from its equilibrium position at x=0 on a frictionless surface and released from rest at t= 0. What is the phase constant phi for the motion?

A 100 g block is connected to a horizontal massless spring of force constant 25.6(N)/(m) As shown in Fig. the block is free to oscillate on a horizontal frictionless surface. The block is displaced 3 cm from the equilibrium position and , at t=0 , it is released from rest at x=0 It executes simple harmonic motion with the postive x-direction indecated in Fig. The position time (x-t) graph of motion of the block is as shown in Fig. Q. When the block is at position A on the graph, its