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A block of mass m 1 = 2.5 kg slides from height 10.0 meters on a frictionless su

A block of mass m1 = 2.5 kg slides from height 10.0 meters on a frictionless surface and collides with a block of mass m2 = 4.0 kg. Hint: Conservation of momentum: total Initial m…

A block of mass m 1 = 2.9 kg initially moving to the right with a speed of 4.3 m

A block of mass m1 = 2.9 kg initially moving to the right with a speed of 4.3 m/s on a frictionless, horizontal track collides with a spring attached to a second block of mass m2 …

A block of mass m 1 = 2.9 kg initially moving to the right with a speed of 4.3 m

A block of mass m1 = 2.9 kg initially moving to the right with a speed of 4.3 m/s on a frictionless, horizontal track collides with a spring attached to a second block of mass m2 …

A block of mass m 1 = 23.0 kg is at rest on a plane inclined at = 30.0° above th

A block of mass m1 = 23.0 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 m 1 = 23.0 kg is at rest on a plane inclined at = 30.0° above th

A block of mass m1 = 23.0 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 m 1 = 23.6 kg is at rest on a plane inclined at = 30.0° above th

A block of mass m1 = 23.6 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 m 1 = 23.6 kg is at rest on a plane inclined at = 30.0° above th

A block of mass m1 = 23.6 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 m 1 = 3.6 kg rests on a frictionless horizontal surface. Asecond

A block of mass m1 = 3.6 kg rests on a frictionless horizontal surface. Asecond block of mass m2 = 1.8 kg hangs from an ideal cord of negligible massthat runs over an ideal pulley…

A block of mass m 1 = 34 kg on a horizontal surface is connected to a mass m 2 =

A block of mass m1 = 34 kg on a horizontal surface is connected to a mass m2 = 19.6 kg that hangs vertically as shown in the figure below. The two blocks are connected by a string…

A block of mass m 1 = 34 kg on a horizontal surface is connected to a mass m 2 =

A block of mass m1 = 34 kg on a horizontal surface is connected to a mass m2 = 21.0 kg that hangs vertically as shown in the figure below. The two blocks are connected by a string…

A block of mass m 1 = 36 kg on a horizontal surface is connected to a mass m 2 =

A block of mass m1 = 36 kg on a horizontal surface is connected to a mass m2 = 23.0 kg that hangs vertically as shown in the figure below. The two blocks are connected by a string…

A block of mass m 1 = 4.0 kg is at rest on a plane that makes an angle = 30.0° a

A block of mass m1 = 4.0 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. T…

A block of mass m 1 = 41.2 kg on a horizontal surface is connected to a mass m 2

A block of mass m1 = 41.2 kg on a horizontal surface is connected to a mass m2 = 18.4 kg that hangs vertically as shown in the figure below. The two blocks are connected by a stri…

A block of mass m 1 = 4kg slides down a frictionless plane inclined 30 o to the

A block of mass m1= 4kg slides down a frictionless plane inclined 30o to the horizontal . The block is connected to other block (moving vertically) of mass m2= 4kg by massless str…

A block of mass m 1 = 6.31 kg on a frictionless plane inclined at angle = 25.4°

A block of mass m1 = 6.31 kg on a frictionless plane inclined at angle = 25.4° is connected by a cord over a massless, frictionless pulley to a second block of mass m2 = 2.18 kg h…

A block of mass m 1 =1.6kg initially moving to the right with a speed of3.4m/s o

A block of massm1=1.6kg initially moving to the right with a speed of3.4m/s on a frictionless, horizontal track collides with a spring attached to a second block of massm2=3.2kg i…

A block of mass m 1 =1.6kg initially moving to the right with a speed of3.4m/s o

A block of massm1=1.6kg initially moving to the right with a speed of3.4m/s on a frictionless, horizontal track collides with a spring attached to a second block of massm2=3.2kg i…

A block of mass m 1 =1.6kg initially moving to the right with a speed of3.4m/s o

A block of massm1=1.6kg initially moving to the right with a speed of3.4m/s on a frictionless, horizontal track collides with a spring attached to a second block of massm2=3.2kg i…

A block of mass m 1 =21.9kg is at rest on a plane inclined at =30.0 degrees abov

A block of mass m1=21.9kg is at rest on a plane inclined at =30.0 degrees above the horizontal. The block is connected via a rope and a massless pulley system to another block of …

A block of mass m 1 is attached to a block of mass m 2 by a massless rope (see d

A block of mass m1 is attached to a block of mass m2 by a massless rope (see diagram); the pulleys and surfaces are frictionless. When the blocks are let go, they move. Answer the…

A block of mass m 1 is attached to a block of mass m 2 by a massless rope (see d

A block of mass m1 is attached to a block of mass m2 by a massless rope (see diagram); the pulleys and surfaces are frictionless. When the blocks are let go, they move. Answer the…

A block of mass m 1 moving with speed v 1 undergoes a completely inelastic colli

A block of mass m1 moving with speed v1 undergoes a completely inelastic collision with a stationary block of mass m2. The blocks then move, stuck together, at speed v2. After a s…

A block of mass m 1 on a rough, horizontal surface is connected to a ball of mas

A block of mass m1 on a rough, horizontal surface is connected to a ball of mass m2 by a lightweight cord over a lightweight, frictionless pulley as shown in figure (a). A force o…

A block of mass m 1 rests on a rough inclined planeand is attached to a hanging

A block of mass m1 rests on a rough inclined planeand is attached to a hanging mass of mass m2 by astring which is draped over a frictionless, massless pulley.If the coecient of s…

A block of mass m 1 restson a rough inclined plane and is attached to a hanging

A block of mass m1 restson a rough inclined plane and is attached to a hanging mass of massm2 bya string which is draped over a frictionless, massless pulley.If the coecient of st…

A block of mass m 1.3 kg is attached to a string that is wrapped around the circ

A block of mass m 1.3 kg is attached to a string that is wrapped around the circumference of a wheel of radius R-8.1 cm. The wheel rotates freely about its axis and the string wra…

A block of mass m 2.20 kg slides down an incline which is 3.60 m high. At the bo

A block of mass m 2.20 kg slides down an incline which is 3.60 m high. At the bottom, it strikes block mass M 7.00 kg which at rest on a horizontal surface, as 3.60 m shown (assum…

A block of mass m 2.20 kg slides down an incline which is 3.60 m high. At the bo

A block of mass m 2.20 kg slides down an incline which is 3.60 m high. At the bottom, it strikes block mass M 7.00 kg which at rest on a horizontal surface, as 3.60 m shown (assum…

A block of mass m 2.30 kg is pushed a distance d- 8.00 m along a frictionless ho

A block of mass m 2.30 kg is pushed a distance d- 8.00 m along a frictionless horizontal table by a constant applied force of magnitude F 29.0° below the horlizontal as shown in t…

A block of mass m 2.33 ko and a block of mass m2 6.50 kg are connected by a mass

A block of mass m 2.33 ko and a block of mass m2 6.50 kg are connected by a massless string over a pulley in the shape of a solid disk having radius R angle ?-30.0°. The coefficie…

A block of mass m 3.53 kg is attached to a spring which is resting on a horizont

A block of mass m 3.53 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 r…

A block of mass m 5 kg slides with an initial speed vi = 5 m/s to the right towa

A block of mass m 5 kg slides with an initial speed vi = 5 m/s to the right toward a ramp of mass M = 20 kg. The ramp itself can also slide without friction on the surface and has…

A block of mass m 5.3 kg is pulled up a 241 incline as in the figure below with

A block of mass m 5.3 kg is pulled up a 241 incline as in the figure below with a force of magnitude F= 38 N. (a) Find the acceleration of the block if the incline is frictionless…

A block of mass m = 0.1 kg is hung from a spring whose force constant is k = 40N

A block of mass m = 0.1 kg is hung from a spring whose force constant is k = 40N/m. The damping force on the block is given by F_d = - gamma v, where ?=0.2N-s/m. The mass is subje…

A block of mass m = 0.53 kg is attached to a spring with force constant 137 N/m

A block of mass m = 0.53 kg is attached to a spring with force constant 137 N/m is free to move on a frictionless, horizontal surface as in the figure below. The block is released…

A block of mass m = 0.546 kg is fastened to an unstrained horizontal spring whos

A block of mass m = 0.546 kg is fastened to an unstrained horizontal spring whose spring constant is k = 97.8 N/m. The block is given a displacement of +0.142 m, where the + sign …

A block of mass m = 0.59 kg is attached to a spring with force constant 128 N/m

A block of mass m = 0.59 kg is attached to a spring with force constant 128 N/m is free to move on a frictionless, horizontal surface as in the figure below. The block is released…

A block of mass m = 0.600 kg is fastened to an unstrained horizontal spring whos

A block of mass m = 0.600 kg is fastened to an unstrained horizontal spring whose spring constant is k = 97.5 N/m. The block is given a displacement of +0.120 m, where the + sign …

A block of mass m = 0.600 kg is fastened to an unstrained horizontal spring whos

A block of mass m = 0.600 kg is fastened to an unstrained horizontal spring whose spring constant is k = 84.8 N/m. The block is given a displacement of +0.154 m, where the + sign …

A block of mass m = 0.602 kg is fastened to an unstrained horizontal spring whos

A block of mass m = 0.602 kg is fastened to an unstrained horizontal spring whose spring constant is k = 95.6 N/m. The block is given a displacement of +0.140 m, where the + sign …

A block of mass m = 0.621 kg is fastened to an unstrained horizontal spring whos

A block of mass m = 0.621 kg is fastened to an unstrained horizontal spring whose spring constant is k = 94.0 N/m. The block is given a displacement of +0.164 m, where the + sign …

A block of mass m = 0.67 kg is attached to a spring with force constant 154 N/m

A block of mass m = 0.67 kg is attached to a spring with force constant 154 N/m is free to move on a frictionless, horizontal surface as in the figure below. The block is released…

A block of mass m = 0.67 kg is attached to a spring with force constant 154 N/m

A block of mass m = 0.67 kg is attached to a spring with force constant 154 N/m is free to move on a frictionless, horizontal surface as in the figure below. The block is released…

A block of mass m = 0.678 kg is fastened to an unstrained horizontal spring whos

A block of mass m = 0.678 kg is fastened to an unstrained horizontal spring whose spring constant is k = 99.8 N/m. The block is given a displacement of +0.151 m, where the + sign …

A block of mass m = 0.691 kg is fastened to an unstrained horizontal spring whos

A block of mass m = 0.691 kg is fastened to an unstrained horizontal spring whose spring constant is k = 86.2 N/m. The block is given a displacement of +0.159 m, where the + sign …

A block of mass m = 0.71 kg is attached to a spring with force constant 111 N/m

A block of mass m = 0.71 kg is attached to a spring with force constant 111 N/m is free to move on a frictionless, horizontal surface as in the figure below. The block is released…

A block of mass m = 0.72 kg is attached to a spring with force constant 122 N/m

A block of mass m = 0.72 kg is attached to a spring with force constant 122 N/m is free to move on a frictionless, horizontal surface as in the figure below. The block is released…

A block of mass m = 0.756 kg is fastened to an unstrained horizontal spring whos

A block of mass m = 0.756 kg is fastened to an unstrained horizontal spring whose spring constant is k = 97.1 N/m. The block is given a displacement of +0.142 m, where the + sign …

A block of mass m = 0.765 kg isfastened to an unstrained horizontal spring whose

A block of mass m = 0.765 kg isfastened to an unstrained horizontal spring whose spring constantis k = 91.0 N/m. The block isgiven a displacement of +0.120 m, where the + sign ind…

A block of mass m = 0.775 kg is fastened to an unstrained horizontal spring whos

A block of mass m = 0.775 kg is fastened to an unstrained horizontal spring whose spring constant is k = 75.5 N/m. The block is given a displacement of +0.120 m, where the + sign …