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84.. An ideal spring is used to stop blocks as they slide along a table without...
An ideal spring is used to stop blocks as they slide along a table without friction....
An ideal spring is used to stop blocks as they slide along a table without friction. A 0.75 kg block traveling at a speed of 2.2 m/s can be stopped over a distance of 0.12 m once it makes contact with the spring V What distance would a 1.10 kg block travel after making contact with the spring if the block is traveling at a speed of 3.0 m/s before it makes contact with the spring?
An ideal spring is used to stop blocks as they slide along a table without friction....
An ideal spring is used to stop blocks as they slide along a table without friction. A 0.70 kg block traveling at a speed of 1.6 m/s can be stopped over a distance of 0.12 m once it makes contact with the spring. A rectangular block on a level surface moves at velocity v to the right towards a spring that rests on the surface and is attached to a fixed mount on the right. What distance would a 1.40...
3. A wooden block with mass 500g is pushed along a table to give it an...
3. A wooden block with mass 500g is pushed along a table to give it an initial speed of 3.00 m/s. It moves down the table and comes into contact with a spring, which it compresses. The block then comes to a stop. The block moves a distance of 1.20m between when the pushing force stops and when it is stopped by the spring. The coefficient of kinetic friction between the block and table is 0.150. The spring has a...
Chapter 09, Problem 058 In the figure, block 2 (mass 1.40 kg) is at rest on...
Chapter 09, Problem 058 In the figure, block 2 (mass 1.40 kg) is at rest on a frictionless surface and touching the end of an unstretched spring of spring constant 109 N/m. The other end of the spring is foxed to a wall. Block 1 (mass 1.20 kg), traveling at speed v1 - 4.10 m/s, collides with block 2, and the two blocks stick together. When the blocks momentarily stop, by what distance is the spring compressed? Number Units
PRINTER VERSION 4 BACK NEXT Chapter 09, Problem 058 In the figure, block 2 (mass 1.70...
PRINTER VERSION 4 BACK NEXT Chapter 09, Problem 058 In the figure, block 2 (mass 1.70 kg) is at rest on a frictionless surface and touching the end of an unstretched spring of spring constant 264 N/m. The other end of the spring is fixed to a wall. Block 1 (mass 1.70 kg), traveling at speed - 4,30 m/s, colides with block 2, and the two blocks stick together. When the blocks momentarily stop, by what distance is the spring...
Block A of mass, mA = 1.7 kg is shot from a spring device of spring...
Block A of mass, mA = 1.7 kg is shot from a spring device of spring constant, k = 700 N/m along a frictionless horizontal surface. The initial compression of the spring is 0.300 m. The shot makes the block rise to another horizontal level at a height h= 1m above the first. On this horizontal it collides with another stationary block B of mass mB = 3.5 kg. The blocks stick together and encounter a rough surface. The blocks...
005 (part 1 of 4) 10.0 points A block of mass 49 kg slides along a...
005 (part 1 of 4) 10.0 points A block of mass 49 kg slides along a friction- front of it, and moving in the opposite direc- tion with a speed of 13 m/s, is a block of mass 65 kg. A massless spring with spring constant 1566 N/m is attached to the second block as in the figure. 42 m/s 13 m/s 1566 N/m 49 kg 65 kg Before the 49 kg block makes contact with the spring, what is...
1. In the figure, a stationary block explodes into two pieces L and R that slide...
1. In the figure, a stationary block explodes into two pieces L and R that slide across a frictionless floor and then into regions with friction, where they stop. Piece L, with a mass of 2.2 kg, encounters a coefficient of kinetic friction μL = 0.40 and slides to a stop in distance dL = 0.15 m. Piece R encounters a coefficient of kinetic friction μR = 0.50 and slides to a stop in distance dR = 0.36 m. What...
A hand pushes a 4 kg block along a table from point A to point C...
A hand pushes a 4 kg block along a table from point A to point C as shown in the figure below. The table has been prepared so that the left half of the table (from A to B) is frictionless. The right half (from B to C) has a non-zero coefficient of friction equal to u. The hand pushes the block the full distance from A to C using a constant force of 6 N. The block starts off...
A mass m = 16 kg rests on a frictionless table and accelerated by a spring...
A mass m = 16 kg rests on a frictionless table and accelerated by a spring with spring constant k = 4431 N/m. The floor is frictionless except for a rough patch. For this rough path, the coefficient of friction is μk = 0.52. The mass leaves the spring at a speed v = 3.3 m/s. 1)How much work is done by the spring as it accelerates the mass?J 2)How far was the spring stretched from its unstreched length?m 3)The...
An ideal spring is used to stop blocks as they slide along a table without friction. A 0.75 kg block traveling at a speed of 2.2 m/s can be stopped over a distance of 0.12 m once it makes contact with the spring V What distance would a 1.10 kg block travel after making contact with the spring if the block is traveling at a speed of 3.0 m/s before it makes contact with the spring?
3. A wooden block with mass 500g is pushed along a table to give it an initial speed of 3.00 m/s. It moves down the table and comes into contact with a spring, which it compresses. The block then comes to a stop. The block moves a distance of 1.20m between when the pushing force stops and when it is stopped by the spring. The coefficient of kinetic friction between the block and table is 0.150. The spring has a...
Chapter 09, Problem 058 In the figure, block 2 (mass 1.40 kg) is at rest on a frictionless surface and touching the end of an unstretched spring of spring constant 109 N/m. The other end of the spring is foxed to a wall. Block 1 (mass 1.20 kg), traveling at speed v1 - 4.10 m/s, collides with block 2, and the two blocks stick together. When the blocks momentarily stop, by what distance is the spring compressed? Number Units
PRINTER VERSION 4 BACK NEXT Chapter 09, Problem 058 In the figure, block 2 (mass 1.70 kg) is at rest on a frictionless surface and touching the end of an unstretched spring of spring constant 264 N/m. The other end of the spring is fixed to a wall. Block 1 (mass 1.70 kg), traveling at speed - 4,30 m/s, colides with block 2, and the two blocks stick together. When the blocks momentarily stop, by what distance is the spring...
005 (part 1 of 4) 10.0 points A block of mass 49 kg slides along a friction- front of it, and moving in the opposite direc- tion with a speed of 13 m/s, is a block of mass 65 kg. A massless spring with spring constant 1566 N/m is attached to the second block as in the figure. 42 m/s 13 m/s 1566 N/m 49 kg 65 kg Before the 49 kg block makes contact with the spring, what is...
A hand pushes a 4 kg block along a table from point A to point C as shown in the figure below. The table has been prepared so that the left half of the table (from A to B) is frictionless. The right half (from B to C) has a non-zero coefficient of friction equal to u. The hand pushes the block the full distance from A to C using a constant force of 6 N. The block starts off...
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