SHM: Impulse applied to two masses connected by spring

In summary, the conversation discusses the problem of two masses connected by a spring and the effects of an impulse being applied to one of the masses. It is suggested that the force will result in a combination of translational motion and simple harmonic motion around the center of mass, with the proportion depending on the spring constant and time over which the force is applied. The possibility of using Laplace Transform to solve the equations of motion is mentioned, but the complexity of the problem may require additional information. It is also noted that in the absence of external forces, the center of mass speed will remain constant.
  • #1
A17
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I've come across the following problem:

Two otherwise isolated, equal masses m are at rest and connected by a spring with constant k. An impulse is applied to one of the masses along the direction of the spring connecting them. What happens?

Qualitatively, I think that the force will both accelerate the whole system and compress the spring, resulting in translational motion of the whole system and SHM about the centre of mass. The proportion of these two types of motion will depend on k and the time over whoch the force is applied.

However, I can't quite put this into mathematics. Given the impulse, m and k, is there a way to calculate the c-of-m speed and the chacteristic properties of the oscillation exactly?

Any help woild be much appreciated!:smile: :smile:
 
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  • #2
Is the surface frictionless?

Well, qualitatively if the surface is not frictionless then an impulse takes some time to get communicated through the spring to the other mass because the mode of communication is the spring force which develops as the spring gets elongated or compressed.

If you know the nature of the impulse [itex]F(t)[/itex] then you can set up the differential equations of motion and then use the Laplace Transform to solve them. The impulse could be defined in several ways. Do you know the transform method?

In the absence of specific information, this problem can become quite complicated if you want to know the exact parameters (position/velocity) of the two masses. But in cases where the force is zero and the system responds to an initial condition (elongated or compressed spring for example) the solution is fairly simple.

Can you show us your work (the equations you have set up so far)?
 
  • #3
The impulse J gives the mass you strike an initial velocity v_0=J/m.
Just apply this initial condition.
 
  • #4
The applied impulse also allows you to calculate the center of mass speed of the system. Assuming no other external forces act on the system, that speed will remain constant throughout the motion.
 

1. What is SHM (Simple Harmonic Motion)?

SHM is a type of motion where an object oscillates back and forth around a central point, with its displacement being directly proportional to a restoring force (such as a spring) and inversely proportional to its mass.

2. How is SHM affected by an impulse applied to two masses connected by a spring?

When an impulse is applied to two masses connected by a spring, the masses will experience a sudden change in velocity and displacement. This will cause the system to deviate from its equilibrium position and undergo damped simple harmonic motion.

3. What factors affect the amplitude and frequency of SHM in this scenario?

The amplitude and frequency of SHM are affected by the masses of the objects, the stiffness of the spring, and the magnitude of the impulse applied. A larger mass or stiffer spring will result in a smaller amplitude and higher frequency, while a larger impulse will result in a larger amplitude and lower frequency.

4. How does the direction of the impulse affect SHM in this scenario?

The direction of the impulse will determine the direction of the initial displacement of the masses. This will affect the phase difference between the two masses, but it will not change the amplitude or frequency of SHM.

5. Can SHM be used to model real-world systems?

Yes, SHM can be used to model a variety of real-world systems, such as pendulums, springs, and vibrating objects. It is a useful tool for understanding and predicting the behavior of these systems under different conditions.

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