Problem 1 A block of mass m is sliding on a frictionless, horizontal surface, with a...
Problem 1 A block of mass m is sliding on a frictionless, horizontal surface, with a velocity vi . It hits an ideal spring, of spring constant k, which is attached to the wall. The spring compresses until the block momentarily stops, and then starts expanding again, so the block ultimately bounces off (see Example 5.6.2). (a) Write down an equation of motion (a function x(t)) for the block, which is valid for as long as it is in contact with the spring. For simplicity, assume the block is initially moving to the right, take the time when it first makes contact with the spring to be t = 0, and let the position of the block at that time to be x = 0. Make sure that you express any constants in your equation (such as A or ω) in terms of the given data, namely, m, vi , and k. (b) Sketch the function x(t) for the relevant time interval.
Homework Answers
![Let X(t)= A Sin (wt+d) be the position of of the block. A= amplitude, w= angular frequency X(0)= 0 [The position at tro] : 0=](http://img.homeworklib.com/questions/d33a69d0-7037-11ea-9068-6d71b7ad877c.png?x-oss-process=image/resize,w_560)
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Problem 1 A block of mass m is sliding on a frictionless,
horizontal surface, with a...
Problem 1 A block of mass m is sliding on a frictionless, horizontal surface, with a...
Problem 1 A block of mass m is sliding on a frictionless, horizontal surface, with a velocity vi . It hits an ideal spring, of spring constant k, which is attached to the wall. The spring compresses until the block momentarily stops, and then starts expanding again, so the block ultimately bounces off (see Example 5.6.2). (a) Write down an equation of motion (a function x(t)) for the block, which is valid for as long as it is in contact...
2. Starting from rest, a block of mass m slides down a frictionless incline at angle...
2. Starting from rest, a block of mass m slides down a frictionless incline at angle θ(0◦ < θ < 90◦) where it runs into a spring of spring constant k. When the block momentarily stops, it has compressed the spring by distance x. Find expressions for (a) the distance the block slides down the incline from when it is released to when it momentarily stops (b) the distance between the point of the first block-spring contact and the point...
A 0.505-kg block slides on a frictionless horizontal surface with a speed of 1.18 m>s. The...
A 0.505-kg block slides on a frictionless horizontal surface with a speed of 1.18 m>s. The block encounters an unstretched spring and compresses it 23.2 cm before coming to rest. (b) For what length of time is the block in contact with the spring before it comes to rest? (c) If the force constant of the spring is increased, does the time required to stop the block increase, decrease, or stay the same? Explain.
PROBLEM THREE (25 1 A 3.0 kg block sliding on a horizontal frictionless surface is attached...
PROBLEM THREE (25 1 A 3.0 kg block sliding on a horizontal frictionless surface is attached to one end of a horizontal spring (k 250 N/m) which has the other end fixed. If the block has a speed of 5.0 m/s as it passes through equilibrium, what is its speed when it is 15 cm from the equilibrium postion?
A block of mass 2.0 kg sliding on a horizontal frictionless surface is attached to one...
A block of mass 2.0 kg sliding on a horizontal frictionless surface is attached to one end of a horizontal spring (k = 800 N/m) which has its other end fixed. If the speed of the block as it passes through the equilibrium position is 4.0 m/s, what is its speed when it is a distance of 10 cm from the equilibrium position? a) 3.2 m/s b) 3.5 m/s c) 2.9 m/s d) 2.4 m/s
7) A block of mass m, resting on a horizontal frictionless surface, is attached to one...
7) A block of mass m, resting on a horizontal frictionless surface, is attached to one end of a spring; the other end is fixed to a wall. It takes 3.6 J of work to compress the spring by 0.13 m. If the spring is compressed, and the mass is released from rest, it experiences a maximum acceleration of 15 m/s2. Find the value of (a) the mass of the block. As the block passes through its equilibrium position, a...
A block of mass 7.8kg is sliding over a frictionless surface, toward the right, at an...
A block of mass 7.8kg is sliding over a frictionless surface, toward the right, at an initial speed of 14m/sec. Let the x-axis point toward the right. Compute its initial momentum, P0, and record its momentum in the space provided: a) P0 = ________ i + ________ j b) The block collides with a wall, and afterwards is moving at 14m/sec toward the LEFT. (This is a “perfectly elastic collision”, BTW). Record its momentum after the collision, P1, in the...
1. A block of mass 6.00kg is connected to a spring on a horizontal frictionless surface....
1. A block of mass 6.00kg is connected to a spring on a horizontal frictionless surface. The spring constant is 280N/m. The block-spring system undergoes simple harmonic motion. At a time t=0s, the position of the block x= +A and its velocity vx= 0. At t=2.50s the position x = -12.0 cm No credit awarded without correct units! a. Determine the angular frequency and period of the motion b. Determine the amplitude c. Determine the phase angle d. Write the...
QUESTIONS A block of mass m, resting on a horizontal frictionless surface, is attached to one...
QUESTIONS A block of mass m, resting on a horizontal frictionless surface, is attached to one end of a spring; the other end is fixed to a wall. It takes 3.6J of work to compress the spring by 13 cm; then it is released from rest. It experiences a maximum acceleration of 15 m/s2. Find the value of (a) the mass of the block. As the block passes through its equilibrium position, a lump of putty of mass mi -...
A 1.05 kg block slides on a frictionless, horizontal surface with an speed of 1.45 m/sec....
A 1.05 kg block slides on a frictionless, horizontal surface with an speed of 1.45 m/sec. The block encounters an unstretched spring with a spring constant of 285 N/m. 1)What is the initial kinetic energy of the block before it hits the spring? KE0 = 2)What is the potential energy of the mass and spring system when the spring is at its point of maximum compression? Umax = 3)How far is the spring compress before the block comes to rest?...
PROBLEM THREE (25 1 A 3.0 kg block sliding on a horizontal frictionless surface is attached to one end of a horizontal spring (k 250 N/m) which has the other end fixed. If the block has a speed of 5.0 m/s as it passes through equilibrium, what is its speed when it is 15 cm from the equilibrium postion?
A block of mass 2.0 kg sliding on a horizontal frictionless surface is attached to one end of a horizontal spring (k = 800 N/m) which has its other end fixed. If the speed of the block as it passes through the equilibrium position is 4.0 m/s, what is its speed when it is a distance of 10 cm from the equilibrium position? a) 3.2 m/s b) 3.5 m/s c) 2.9 m/s d) 2.4 m/s
7) A block of mass m, resting on a horizontal frictionless surface, is attached to one end of a spring; the other end is fixed to a wall. It takes 3.6 J of work to compress the spring by 0.13 m. If the spring is compressed, and the mass is released from rest, it experiences a maximum acceleration of 15 m/s2. Find the value of (a) the mass of the block. As the block passes through its equilibrium position, a...
QUESTIONS A block of mass m, resting on a horizontal frictionless surface, is attached to one end of a spring; the other end is fixed to a wall. It takes 3.6J of work to compress the spring by 13 cm; then it is released from rest. It experiences a maximum acceleration of 15 m/s2. Find the value of (a) the mass of the block. As the block passes through its equilibrium position, a lump of putty of mass mi -...
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