A 2.00-kg object is free to slide on a horizontal surface. The object is attached to a spring of spring constant 300 N/m , and the other end of the spring is attached to a wall. The object is pulled in the direction away from the wall until the spring is stretched 50.0 mm from its relaxed position. The object is not released from rest, but is instead given an initial velocity of 2.50 m/s away from the wall. Ignore friction.
C) Determine the value of A in the equation for the object's position. Suppose that A>0.
Answer: 155 mm
D) Determine the value of ω in the equation for the object's position. Suppose that ω>0.
E) Determine the value of ϕi in the equation for the object's position. Suppose that −π<ϕi≤π.
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A 2.00-kg object is free to slide on a horizontal surface. The object is attached to a spring of spring constant 300 N/m , and the other end of the spring is attached to a wall. The object is pulled i...
A 3.00-kg object is free to slide on a horizontal surface. The object is attached to...
A 3.00-kg object is free to slide on a horizontal surface. The object is attached to a spring of spring constant 300 N/m ,and the other end of the spring is attached to a wall. The object is pulled in the direction away from the wall until the spring is stretched 70.0 mm from its relaxed position. The object is not released from rest, but is instead given an initial velocity of 2.50 m/s away from the wall. Ignore friction....
A 2.00-kg object is free to slide on a horizontal surface. The object is attached to...
A 2.00-kg object is free to slide on a horizontal surface. The object is attached to a spring of spring constant 300 N/ m, and the other end of the spring is attached to a wall. The object is pulled in the direction away from the wall until the spring is stretched 50.0 mm from its relaxed position. The object is not released from rest but is instead given an initial velocity of 2.50 m/s away from the wall. Ignore...
Constants PartA A 2.00-kg, frictionless block is attached to an ideal spring with force constant 300...
Constants PartA A 2.00-kg, frictionless block is attached to an ideal spring with force constant 300 N/m. Att0 the block has velocity -4.00 m/s and displacement +0.200 m Find (a) the amplitude and (b) the phase angle SubmitR Request Answer Part B rad Submit Request Answer Part C Write an equation for the position as a function of time. Assume (t) in meters and t in seconds. a (t)- Submit F Request Answer
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A 2.00-kg, frictionless block is attached to an ideal spring with force constant 300 N/m Att-0 the block has velocity -4.00 m/s and displacement +0.200 m. Correct Significant Figures Feedback: Your answer .382 m was either rounded differently or used a different number of significant figures than required for this part. ?: 1.02 rad Correct Significant Figures Feedback: Your answer 1.023 rad was either rounded differently or used a different number of significant figures than required for this part. Part...
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Please help 8. An object of mass m-2Kg is attached to a horizontal spring of constant...
Please help
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Constants PartA A 2.00-kg, frictionless block is attached to an ideal spring with force constant 300 N/m. Att0 the block has velocity -4.00 m/s and displacement +0.200 m Find (a) the amplitude and (b) the phase angle SubmitR Request Answer Part B rad Submit Request Answer Part C Write an equation for the position as a function of time. Assume (t) in meters and t in seconds. a (t)- Submit F Request Answer
Differntial Equations Forced Spring Motion
1. A 1 kg mass is attached to a spring of spring constant k = 4kg/82, The spring-mass system is attached to a machine that supplies an external driving force of f(t) = 4 cos(wt). The systern is started from equilibrium i.e. 2(0) = 0 and z'(0) = 0. There is no damping. (a) Find the position x(t) of the mass as a function of time (b) write your answer in the form r(t)-1 sin(6t)...
A 2.00-kg, frictionless block is attached to an ideal spring with force constant 300 N/m Att-0 the block has velocity -4.00 m/s and displacement +0.200 m. Correct Significant Figures Feedback: Your answer .382 m was either rounded differently or used a different number of significant figures than required for this part. ?: 1.02 rad Correct Significant Figures Feedback: Your answer 1.023 rad was either rounded differently or used a different number of significant figures than required for this part. Part...
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Please help
8. An object of mass m-2Kg is attached to a horizontal spring of constant k-30 N/m and can move frictionless along a horizontal table. The other end of the spring is attached to a wall The spring is relaxed and the block is at rest. Then the block is pushed 3 cm to the left and released from rest. Considering positive x direction to the right, and t-0 the time of release, write the position equation as a...
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