Understanding Driving Force in the m2 Equation: Explained by Experts

[ANAli]

Homework Statement

(Problem 3.26; Classical Dynamics of Particles and Systems)
Figure 3-B illustrates a mass m1 driven by a sinusoidal force whose frequency is w. The mass m1 is attached to a rigid support by a spring of force constant k and slides on a second mass m2. The frictional force between m1 and m2 is represented by the damping parameter b1 and the friction force between m2 and the support is represented by b2. Construct the electrical analog of the system, and calculate the impedance.

Relevant Equations

Inserted image of equations in question. These are from the solution manual.

I am having trouble understanding why the second term in the m2 equation, b1(x'2 - x'1), is a negative term. Given that this force is the reason why m2 is moving in the first place, why is it not considered a driving force? I think that I don't have a clear understanding of what driving force means.

 

[Orodruin]

A driving force is an external force imposed on the system that drives its motion. The frictional force is not driving because it is an internal force between different parts of your system that is not forcing the motion of the system but instead its form depends on the motion of the system.

Since it is the frictional force from 1 on 2, it is the 3rd law pair of the frictional force from 2 on 1. It must be equal in magnitude and opposite in direction.

 

[Lnewqban]

What happens if the value of b1 is so big that v1=v2?

 

[ANAli]

A driving force is an external force imposed on the system that drives its motion. The frictional force is not driving because it is an internal force between different parts of your system that is not forcing the motion of the system but instead its form depends on the motion of the system.

Since it is the frictional force from 1 on 2, it is the 3rd law pair of the frictional force from 2 on 1. It must be equal in magnitude and opposite in direction.

Got it. I understand. Thank you!

 

[vela]

Homework Statement:: (Problem 3.26; Classical Dynamics of Particles and Systems)

I am having trouble understanding why the second term in the m2 equation, b1(x'2 - x'1), is a negative term. Given that this force is the reason why m2 is moving in the first place, why is it not considered a driving force? I think that I don't have a clear understanding of what driving force means.

One way to see if the signs make sense is to consider specific cases. For example, if ##m_1## is moving to the right (##\dot x_1>0##) and ##m_2## is at rest (##\dot x_2=0##), the top mass will push the bottom mass to the right so you would expect ##\ddot x_2>0##. In this case, the second equation reduces to ##m_2 \ddot x_2 = + b_1 \dot x_1 > 0##, which is in agreement. Similarly, if you consider the case where ##\dot x_2>0## and ##\dot x_1 = 0##, you'll see the signs of the other two terms are correct as well.