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A block of mass m = 353 g is dragged with a string across a rough horizontal tab

A block of mass m = 353 g is dragged with a string across a rough horizontal table. The string tension is T = 2.79 N, and it pulls upward at an angle of = 41.0° with the horizonta…

A block of mass m = 364 g is dragged with a string across a rough horizontal tab

A block of mass m = 364 g is dragged with a string across a rough horizontal table. The string tension is T = 3.27 N, and it pulls upward at an angle of ? = 44.0° with the horizon…

A block of mass m = 39 kg is slid over a horizontal frictionlesssurface at some

A block of mass m = 39 kg is slid over a horizontal frictionlesssurface at some constant velocity. It then encounters a inclinedplane which has a coefficient of kinetic friction o…

A block of mass m = 4.00 kg is attached to the end of an ideal spring. Due to th

A block of mass m= 4.00 kg is attached to the end of an ideal spring. Due to the weight of the block, the block remains at rest when the spring is stretched a distance h= 10.0 cm …

A block of mass m = 4.4 kg, moving on frictionless surface with a speed v i = 9.

A block of mass m =                 4.4 kg, moving on frictionless                 surface with a speed vi = 9.2 m/s makes a perfectly                 elastic collision with a blo…

A block of mass m = 4.43 kg is attached to a spring which is resting on a horizo

A block of mass m = 4.43 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 4.5 kg is attached to a spring with spring constant k = 790

A block of mass m = 4.5 kg is attached to a spring with spring constant k = 790 N/m. It is initially at rest on an inclined plane that is at an angle of = 24° with respect to the …

A block of mass m = 4.5 kg is attached to a spring with spring constant k = 790

A block of mass m = 4.5 kg is attached to a spring with spring constant k = 790 N/m. It is initially at rest on an inclined plane that is at an angle of = 24° with respect to the …

A block of mass m = 4.5 kg rests on a frictionless floor. It is attached to a sp

A block of mass m = 4.5 kg rests on a frictionless floor. It is attached to a spring with a relaxed length L = 5 m. The spring has spring constant k = 15 N / m and is relaxed when…

A block of mass m = 4.50 kg rides on top of a second block of mass M = 12.0 kg.

A block of mass m = 4.50 kg rides on top of a second block of mass M = 12.0 kg. A person attaches a string to the bottom block and pulls the system horizontally across a frictionl…

A block of mass m = 4.88 kg is attached to a spring which is resting on a horizo

A block of mass m = 4.88 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 4.88 kg is attached to a spring which is resting on a horizo

A block of mass m = 4.88 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 5 .78 kq is attached to a spring which is resting on a horiz

A block of mass m = 5 .78 kq is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is the…

A block of mass m = 5 kg is attached to a spring (k = 27 N/m) by a rope that han

A block of mass m = 5 kg is attached to a spring (k = 27 N/m) by a rope that hangs over a pulley of mass M = 7 kg and radius R = 8 cm, as shown in the figure. Treating the pulley …

A block of mass m = 5 kg starts from rest at the top of a frictionless, icy circ

A block of mass m = 5 kg starts from rest at the top of a frictionless, icy circular quarter pipe of radius R = 2.0 m. When let go, it slides down to the bottom of the slope, and …

A block of mass m = 5 kg starts from rest at the top of a frictionless, icy circ

A block of mass m = 5 kg starts from rest at the top of a frictionless, icy circular quarter pipe of radius R = 2.0 m. When let go, it slides down to the bottom of the slope, and …

A block of mass m = 5.2 kg is pulled up a ? = 21 A block of mass m = 5.2 kg is p

A block of mass m = 5.2 kg is pulled up a ? = 21 A block of mass m = 5.2 kg is pulled up a ? = 21A degree incline as in the figure with a force of magnitude F = 36 N. (a) Find the…

A block of mass m = 5.33 kg is attached to a spring which is resting on a horizo

A block of mass m = 5.33 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 5.60 kg is released from rest from point A and slides on the

A block of mass m = 5.60 kg is released from rest from point A and slides on the frictionless track shown in the figure below. (Assume ha = 7.90 m.) point      m/s point      m/s …

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizo

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizo

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizo

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizo

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizo

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizo

A block of mass m = 5.78 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 6.0 kg starts from rest at the top of a frictionless, icey c

A block of mass m = 6.0 kg starts from rest at the top of a frictionless, icey circular half pipe of radius R = 2.0 m. When let go, it slides down to the bottom of the slope and c…

A block of mass m = 6.0 kg, moving on a frictionless surface with a speed v_i =

A block of mass m = 6.0 kg, moving on a frictionless surface with a speed v_i = 5.8 m/s makes a perfectly elastic collision with a block of mass M at rest. After the collision, th…

A block of mass m = 6.14 kg is attached to a spring with spring constant k = 154

A block of mass m = 6.14 kg is attached to a spring with spring constant k = 1542 N/m and rests on a frictionless surface. The block is pulled, stretching the spring a distance of…

A block of mass m = 6.68 kg is attached to a spring which is resting on a horizo

A block of mass m = 6.68 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 6.68 kg is attached to a spring which is resting on a horizo

A block of mass m = 6.68 kg is attached to a spring which is resting on a horizontal frictionless table. The block is pushed into the spring, compressing it by 5.00 m, and is then…

A block of mass m = 7.30 kg (Assume h a = 5.50 m.) A skier of mass 67 kg is pull

A block of mass m = 7.30 kg (Assume ha = 5.50 m.) A skier of mass 67 kg is pulled up a slope by a motor-driven cable. (a) How much work is required to pull him 75 m up a 30° slope…

A block of mass m = 7.30 kg (Assume h a = 5.50 m.) A skier of mass 67 kg is pull

A block of mass m = 7.30 kg (Assume ha = 5.50 m.) A skier of mass 67 kg is pulled up a slope by a motor-driven cable. (a) How much work is required to pull him 75 m up a 30° slope…

A block of mass m = 7.90 kg is released from rest at a height of H = 3.00 m on a

A block of mass m = 7.90 kg is released from rest at a height of H = 3.00 m on a curved frictionless ramp. At the foot of the ramp is a spring whose spring constant is k = 221.0 N…

A block of mass m = 9.00 k g is attached to the end of an ideal spring. Due to t

A block of mass m= 9.00kg is attached to the end of an ideal spring. Due to the weight of the block, the block remains at rest when the spring is stretched a distance h= 7.00cm fr…

A block of mass m = kg rests on a frictionless floor. It is attached to a spring

A block of mass m = kg rests on a frictionless floor. It is attached to a spring with a relaxed length L = m. The spring has spring constant k = N/m and is relaxed when hanging in…

A block of mass m B = 140kg sitting on a frictionless ramp, where =35 degrees, a

A block of mass mB = 140kg sitting on a frictionless ramp, where =35 degrees, and is attached to an idealized pulley of mass mp = 60kg and radius rp=0.15m by a weighless cord.    …

A block of mass m and a block of mass 3m are used to compress a massless spring

A block of mass m and a block of mass 3m are used to compress a massless spring with spring constant k. The blocks are not connected to the spring. The blocks start at rest on a f…

A block of mass m and a block of mass 3m are used to compress a massless spring

A block of mass m and a block of mass 3m are used to compress a massless spring with spring constant k. The blocks are not connected to the spring. The blocks start at rest on a f…

A block of mass m and initial speed collides elastically with a block of mass 2m

A block of mass m and initial speed collides elastically with a block of mass 2m which is initially at rest. Assuming the positive direction is to the right and that there is no f…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…

A block of mass m begins at rest at the top of a ramp at elevation h with whatev

A block of mass m begins at rest at the top of a ramp at elevation h with whatever PE is associated with that height. The block slides down the ramp over a distance d until it rea…