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A block of mass m1 = 21.2 kg is at rest on a plane inclined at = 30.0° above the

A block of mass m1 = 21.2 kg is at rest on a plane inclined at = 30.0° above the horizontal. The block is connected via a rope and massless pulley system to another block of mass …

A block of mass m1 = 21.2 kg is at rest on a plane inclined at = 30.0° above the

A block of mass m1 = 21.2 kg is at rest on a plane inclined at = 30.0° above the horizontal. The block is connected via a rope and massless pulley system to another block of mass …

A block of mass m1 = 21.2 kg is at rest on a plane inclined at ? = 30.0° above t

A block of mass m1 = 21.2 kg is at rest on a plane inclined at ? = 30.0° above the horizontal. The block is connected via a rope and massless pulley system to another block of mas…

A block of mass m1 = 21.8 kg is at rest on a plane inclined at = 30.0° above the

A block of mass m1 = 21.8 kg is at rest on a plane inclined at = 30.0° above the horizontal. The block is connected via a rope and massless pulley system to another block of mass …

A block of mass m1 = 21.8 kg is at rest on a plane inclined at = 30.0° above the

A block of mass m1 = 21.8 kg is at rest on a plane inclined at = 30.0° above the horizontal. The block is connected via a rope and massless pulley system to another block of mass …

A block of mass m1 = 24.2 kg is at rest on a plane inclined at = 30.0° above the

A block of mass m1 = 24.2 kg is at rest on a plane inclined at = 30.0° above the horizontal. The block is connected via a rope and massless pulley system to another block of mass …

A block of mass m1 = 24.2 kg is at rest on a plane inclined at = 30.0° above the

A block of mass m1 = 24.2 kg is at rest on a plane inclined at = 30.0° above the horizontal. The block is connected via a rope and massless pulley system to another block of mass …

A block of mass m1 = 3 kg slides along a frictionless table with a velocity of +

A block of mass m1 = 3 kg slides along a frictionless table with a velocity of +10 m/s. Directly in front of it, and moving with a velocity of +3 m/s, is a block of mass m2 = 8 kg…

A block of mass m1 = 3 kg slides along a frictionless table with a velocity of +

A block of mass m1 = 3 kg slides along a frictionless table with a velocity of +10 m/s. Directly in front of it, and moving with a velocity of +3 m/s, is a block of mass m2 = 8 kg…

A block of mass m1 = 3.0 kg slides along a frictionless table with a velocity of

A block of mass m1 = 3.0 kg slides along a frictionless table with a velocity of +10 m/s. Directly in front of it, and moving with a velocity of +3.0 m/s, is a block of mass m2 = …

A block of mass m1 = 3.4 kg rests on a frictionless horizontal surface. A second

A block of mass m1 = 3.4 kg rests on a frictionless horizontal surface. A second block of mass m2 = 1.3 kg hangs from an ideal cord of negligible mass that runs over an ideal pull…

A block of mass m1 = 34.5 kg on a horizontal surface is connected to a mass m2 =

A block of mass m1 = 34.5 kg on a horizontal surface is connected to a mass m2 = 13.1 kg that hangs vertically as shown in the figure below. The two blocks are connected by a stri…

A block of mass m1 = 38 kg on a horizontal surface is connected to a mass m2 = 2

A block of mass m1 = 38 kg on a horizontal surface is connected to a mass m2 = 22.2 kg that hangs vertically as shown in the figure below. The two blocks are connected by a string…

A block of mass m1 = 38 kg on a horizontal surface is connected to a mass m2 = 2

A block of mass m1 = 38 kg on a horizontal surface is connected to a mass m2 = 21.8 kg that hangs vertically as shown in the figure below. The two blocks are connected by a string…

A block of mass m1 = 38 kg on a horizontal surface is connected to a mass m2 = 2

A block of mass m1 = 38 kg on a horizontal surface is connected to a mass m2 = 21.8 kg that hangs vertically as shown in the figure below. The two blocks are connected by a string…

A block of mass m1 = 4.0 kg slides along a frictionless table with a velocity of

A block of mass m1 = 4.0 kg slides along a frictionless table with a velocity of +10 m/s. Directly in front of it, and moving with a velocity of +3.0 m/s, is a block of mass m2 = …

A block of mass m1 = 4.1 kg rests on a frictionless horizontal surface. A second

A block of mass m1 = 4.1 kg rests on a frictionless horizontal surface. A second block of mass m2 = 2.5 kg hangs from an ideal cord of negligible mass that runs over an ideal pull…

A block of mass m1 = 4.1 kg rests on a frictionless horizontal surface. A second

A block of mass m1 = 4.1 kg rests on a frictionless horizontal surface. A second block of mass m2 = 2.5 kg hangs from an ideal cord of negligible mass that runs over an ideal pull…

A block of mass m1 = 4.4 kg rests on a frictionless horizontal surface. A second

A block of mass m1 = 4.4 kg rests on a frictionless horizontal surface. A second block of mass m2 = 1.9 kg hangs from an ideal cord of negligible mass that runs over an ideal pull…

A block of mass m1 = 4.4 kg rests on a frictionless horizontal surface. A second

A block of mass m1 = 4.4 kg rests on a frictionless horizontal surface. A second block of mass m2 = 1.1 kg hangs from an ideal cord of negligible mass that runs over an ideal pull…

A block of mass m1 = 4.50 kg sits on top of a second block of mass m2 = 15.4 kg,

A block of mass m1 = 4.50 kg sits on top of a second block of mass m2 = 15.4 kg, which in turn is on a horizontal table. The coefficients of friction between the two blocks are s …

A block of mass m1 = 4.80 kg sits on top of a second block of mass m2 = 14.7 kg,

A block of mass m1 = 4.80 kg sits on top of a second block of mass m2 = 14.7 kg, which in turn is on a horizontal table. The coefficients of friction between the two blocks are mu…

A block of mass m1 = 41 kg on a horizontal surface is connected to a mass m2 = 2

A block of mass m1 = 41 kg on a horizontal surface is connected to a mass m2 = 20.2 kg that hangs vertically as shown in the figure below. The two blocks are connected by a string…

A block of mass m1 = 42 kg on a horizontal surface is connected to a mass m2 = 1

A block of mass m1 = 42 kg on a horizontal surface is connected to a mass m2 = 18.2 kg that hangs vertically as shown in the figure below. The two blocks are connected by a string…

A block of mass m1 = 42.3 kg on a horizontal surface is connected to a mass m2 =

A block of mass m1 = 42.3 kg on a horizontal surface is connected to a mass m2 = 18.0 kg that hangs vertically as shown in the figure below. The two blocks are connected by a stri…

A block of mass m1 = 5.0 kg is at rest on a plane that makes an angle = 30.0° ab

A block of mass m1 = 5.0 kg is at rest on a plane that makes an angle = 30.0° above the horizontal. The coefficient of static friction between the block and the incline is 0.47. T…

A block of mass m1 = 5.40 kg sits on top of a second block of mass m2 = 16.1 kg,

A block of mass m1 = 5.40 kg sits on top of a second block of mass m2 = 16.1 kg, which in turn is on a horizontal table. The coefficients of friction between the two blocks are s …

A block of mass m1 is attached to a cord of length L1, which is fixed at one end

A block of mass m1 is attached to a cord of length L1, which is fixed at one end. The block moves in a horizontal circle on a frictionless tabletop. A second block of mass m2 is a…

A block of mass m1 is attached to a massless, ideal string. This string wraps ar

A block of mass m1 is attached to a massless, ideal string. This string wraps around a massless pulley and then wraps around a second pulley that is attached to a block of mass m2…

A block of mass m1 on a frictionless plane inclined at an angle ? is connected b

A block of mass m1 on a frictionless plane inclined at an angle ? is connected by a cord over a massless, frictionless pulley to a second block of mass m2. Our goal is to find the…

A block of mass m1 on a frictionless plane inclined at an angle ? is connected b

A block of mass m1 on a frictionless plane inclined at an angle ? is connected by a cord over a massless, frictionless pulley to a second block of mass m2. Our goal is to find the…

A block of mass m1 travels at a speed of v0 on a frictionless horizontal surface

A block of mass m1 travels at a speed of v0 on a frictionless horizontal surface when it comes upon a second block of mass m2 which is initially motionless. Block m2 has a massles…

A block of mass m1 travels at a speed of v0 on a frictionless horizontal surface

A block of mass m1 travels at a speed of v0 on a frictionless horizontal surface when it comes upon a second block of mass m2 which is initially motionless. Block m2 has a massles…

A block of mass m1-5.0 kg is at rest on a plane that makes an angle = 30.0° abov

A block of mass m1-5.0 kg is at rest on a plane that makes an angle = 30.0° above the horizontal. The coefficient of static friction between the block and the incline is 0.42. The…

A block of mass m1-5.0 kg is at rest on a plane that makes an angle = 30.0° abov

A block of mass m1-5.0 kg is at rest on a plane that makes an angle = 30.0° above the horizontal. The coefficient of static friction between the block and the incline is 0.42. The…

A block of mass m1= 125kg starts with an initial velocity ofv=82m/s up the ramp.

A block of mass m1= 125kg starts with an initial velocity ofv=82m/s up the ramp. It slides for a distance of x=10.0m along theramp which has a coefficient of friction of k=.150 an…

A block of mass m1= 3.70 kg on a frictionless plane inclined at angle theta= 30.

A block of mass m1= 3.70 kg on a frictionless plane inclined at angle theta= 30.0 degrees is connected by a cord over a massless, frictionless pulley to a second block of mass m2=…

A block of mass m1= 3.70 kg on a frictionless plane inclined at angle theta= 30.

A block of mass m1= 3.70 kg on a frictionless plane inclined at angle theta= 30.0 degrees is connected by a cord over a massless, frictionless pulley to a second block of mass m2=…

A block of mass m2 = 100 kg is to be hoisted up using the pulley system shown be

A block of mass m2 = 100 kg is to be hoisted up using the pulley system shown below. The pulley consists of two cylinders of different radii, R1 = 0.75 m and R2 = 0.25 m, that are…

A block of mass m309 g is dragged with a string across a rough horizontal table.

A block of mass m309 g is dragged with a string across a rough horizontal table. The string tension is T= 3.43 N, and it pulls upward at an angle of 43.0° with the horizontal. At …

A block of mass m4 = 2.0 kg slides along a frictionless table with a speed of 10

A block of mass m4 = 2.0 kg slides along a frictionless table with a speed of 10 m/s. Directly in front of it, and moving in the same direction, is a block of mass mB = 5.0 kg mov…

A block of mass m= 1.00kg is attached to the end of an ideal spring. Due to the

A block of mass m= 1.00kg 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= 9.00cm fr…

A block of mass m= 10.0 kg is attached to the end of an ideal spring. Due to the

A block of mass m= 10.0 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= 7.00 cm …

A block of mass m= 10.0 kg is attached to the end of an ideal spring. Due to the

A block of mass m= 10.0 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= 3.00kg is attached to the end of an ideal spring. Due to the

A block of mass m= 3.00kg 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= 9.00cm fr…

A block of mass m= 5.00 kg is attached to the end of an ideal spring. Due to the

A block of mass m= 5.00 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= 7.00kg is attached to the end of an ideal spring. Due to the

A block of mass m= 7.00kg 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= 9.00cm fr…

A block of mass m=0.280kg is released from point a, at heighth=0.100m on a U-sha

A block of mass m=0.280kg is released from point a, at heighth=0.100m on a U-shaped track. It slides down the track and up topoint c, where it is momentarily at rest, before slidi…

A block of mass m=0.750 kg is fastened to an unstrained horizontal spring whose

A block of mass m=0.750 kg is fastened to an unstrained horizontal spring whose spring constant is k=82 N/m. The block is given a displacement of +0.120 m, where the + sign indica…

A block of mass m=0.750 kg is fastened to an unstrained horizontal spring whose

A block of mass m=0.750 kg is fastened to an unstrained horizontal spring whose spring constant is k=82 N/m. The block is given a displacement of +0.120 m, where the + sign indica…