A block of mass ?=2.90 kg slides along a horizontal table with velocity ?0=2.00 m/s. At ?=0, it hits a spring with spring constant ?=49.00 N/m and it also begins to experience a friction force. The coefficient of friction is given by ?=0.350. How far has the spring compressed by the time the block first momentarily comes to rest? Assume the positive direction is to the right.
A block of mass ?=2.90 kg slides along a horizontal table with velocity ?0=2.00 m/s. At...
A block of mass m = 4.50 kg slides along a horizontal table with velocity vo = 5.00 m/s. At x = 0, it hits a spring with spring constant k = 42.00 N/m and it also begins to experience a friction force. The coefficient of friction is given by μ = 0.400. How far has the spring compressed by the time the block first momentarily comes to rest? Assume the positive direction is to the right.
A block of mass m = 2.75 kg slides along a horizontal table with speed v0 = 1.00 m/s. At x = 0 it hits a spring with spring constant k = 82.00 N/m and it also begins to experience a friction force. The coefficient of friction is given by μ = 0.100. How far has the spring compressed by the time the block first momentarily comes to rest?
A block of mass 0.528 kg slides with uniform velocity of 3.60 m/s on a horizontal frictionless surface. At some point, it strikes a horizontal spring in equilibrium. If the spring constant is k = 26.1 N/m, by how much will the spring be compressed by the time the block comes to rest? b. What is the amount of compression if the surface is rough under the spring, with coefficient of kinetic friction µk = 0.411?
A block of mass m = 78 kg slides along a horizontal surface. The coefficient of friction between the block and the surface is μk = 0.29. The block has an initial speed of v0 = 29 m/s in the positive x-direction as shown. a. Write an expression for the x-component of the frictional force the block experiences, Ff, in terms of the given variables and variables available in the palette. b. What is the magnitude of the frictional force in N? c....
A block of mass m = 63 kg slides along a horizontal surface. The coefficient of friction between the block and the surface is μk= 0.41. The block has an initial speed of v0 = 16 m/s in the positive x-direction as shown. Part (a) Write an expression for the x-component of the frictional force the block experiences, Ff in terms of the given variables and variables available in the palette.Part (b) What is the magnitude of the frictional force in...
A block of mass m = 67 kg slides along a horizontal surface. The coefficient of friction between the block and the surface is μk = 0.22. The block has an initial speed of v0= 16 m/s in the positive x-direction as shown.Part (a) Write an expression for the x-component of the frictional force the block experiences, Ff, in terms of the given variables and variables available in the palette. Part (b) What is the magnitude of the frictional force in...
13.2) A 1.3 -kg block slides along a horizontal surface with a coefficient of friction μk = 0.274. The block has a speed v = 2.28 m/s when it strikes a massless spring head-on. a. If the spring has a force constant k = 30.9 N/m, how far is the spring compressed? b. What minimum value of the coefficient of static friction, μs, will assure the spring remains compressed at the maximum compressed position? c. If μs is less than...
A mass of 1 kg and initial speed 10 m/s slides across a horizontal frictionless surface and hits a spring of force constant 200 N/m. How much will the spring be compressed from its relaxed length when the block will be at rest momentarily?
(S points) A o.5 kg block slides along a horizontal frictionless surface at 2.0 m/s. It is brought to rest by compressing a ve 16. sed long spring of spring constant 800 N/m. How far does the spring get compressed (in cm)? 17. (5 points) A block is released from rest at point P. h2 50 m high, and slides along the frictionless track shown. What is its speed at pointō匹=40 m high? h1 h2 ground level
A cube of mass m= 94 kg slides along a horizontal surface. The coefficient of friction between the cube and the surface is μk = 0.31. The cube has an initial speed of v0= 15 m/s in the positive x-direction as shown. Part(a) What is the magnitude of the frictional force in N? Part (b) How far will the cube travel, in meters, before coming to rest?