How Do You Calculate the Damping Constant for a Spring-Mass System?

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Homework Help Overview

The discussion revolves around calculating the damping constant for a spring-mass system, specifically involving a hard-boiled egg attached to a spring. The problem includes parameters such as mass, spring constant, initial displacement, and the observed amplitude after a certain time period.

Discussion Character

  • Exploratory, Assumption checking, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the formula for the motion of the damped spring-mass system and express confusion regarding the application of the damping force equation. There are attempts to clarify the parameters involved, including the mass, spring constant, and the relationship between displacement and time.

Discussion Status

Some participants are exploring the mathematical relationships and attempting to substitute known values into the equations. There is a recognition of potential issues with the application of the formulas, but no consensus has been reached on the correct approach or solution.

Contextual Notes

Participants note the specific values provided in the problem, including mass conversion from grams to kilograms and the significance of initial and final displacements over the given time period. There is also mention of the need for clarity on the damping force definition.

jaymode
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Here is my problem:
A hard-boiled egg of mass 45.0 g moves on the end of a spring with force constant k = 24.7 N/m. Its initial displacement is 0.290 m. A damping force F = - bv acts on the egg, and the amplitude of the motion decreases to 0.120 m in a time of 5.10 s.


I need to find the magnitude of the dampening constant b.

I am completely clueless on how to approach this question.

edit: corrected some stuff.
 
Last edited:
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Me too, since I do not know what you mean by 'the force of B'.
 
sorry i guess i typed it wrong. the dampening force:

F = -bv

I need to find the magnitude of the dampening constant b.
 
[tex]x(t) = x_{m} e^{\frac{-bt}{2m}} cos( \omega t)[/tex]

where Xm is the initial displacement
b is hte damping force
m is the mass
omega is the angular frequency [tex]\omega = \frac{2 \pi}{T}[/tex] where [tex]T = 2 \pi \sqrt{\frac{m}{k}}[/tex]
 
for some reason that is not working for me.
 
jaymode said:
for some reason that is not working for me.
perhaps you are not using your numbers correctly

initla displacement Xm = 0.290 m
k = 24.7 N/m
X(5.10) = 0.120 m
t = 5.10s
m = 45g = 0.045 kg
and omega = [itex]\sqrt{\frac{m}{k}}[/itex]
it's blind substitution, really
 

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