- #1
ramadhankd
- 15
- 3
Help me build a mathematical model
- Thread starter ramadhankd
- Start date
Click For Summary
SUMMARY
This discussion focuses on building a mathematical model for an oscillating system, specifically addressing the confusion surrounding the differing values of the spring constant (k) derived from both the x force and torsional equilibrium equations. Participants emphasize the necessity of analyzing both linear and torsional approaches in vibration problems, as these methods are interdependent. The conversation highlights that a comprehensive vibration analysis must consider both translational and rotational displacements, especially in complex systems involving multiple bodies or coupled shafts.
PREREQUISITES- Understanding of free vibration translational systems
- Familiarity with linear and torsional equilibrium equations
- Knowledge of vibration analysis techniques
- Experience with mathematical modeling in mechanical systems
- Research the principles of free vibration analysis in mechanical systems
- Learn about the interaction between linear and torsional dynamics in oscillating systems
- Study mathematical modeling techniques for coupled systems
- Explore the effects of rotational inertia on vibration analysis
Mechanical engineers, students studying dynamics, researchers in vibration analysis, and anyone involved in modeling oscillating systems will benefit from this discussion.
- #2
- 19,378
- 15,618
Really ... you are going to post your work unfocused and sideways and then expect us to decipher it?
- #3
ramadhankd
- 15
- 3
Yes, cause actually, I'm just trying to learn here. It's not a homework, It's a problem example of a free vibration translational system problem. I understand the solution, but I need to ignore the effect of the torsion caused by the weight. I'm trying to use a different approach (torsional), and see if the results are the same, but I stuck at this. Here are the problem example and the solution.
- #4
- #5
ramadhankd
- 15
- 3
Ok, below is the overview
- #6
ramadhankd
- 15
- 3
I mean, can this problem even be solved using a rotational spring system approach..?ramadhankd said:
- #7
JBA
Science Advisor
Gold Member
- 1,532
- 462
The two methods cannot be treated as independent, a precise vibration analysis would be based upon a combination of both the lateral force on the beam due to the ball mass plus the effect of the moment imposed upon the beam by the rotational inertia of the ball.
This is somewhat aligned with the earthquake analysis of one structure supporting another secondary structure.
This is somewhat aligned with the earthquake analysis of one structure supporting another secondary structure.
- #8
ramadhankd
- 15
- 3
So, in analyzing every vibration problem, we need to analyze both linear and torsional approach. I thought we can just use either one, where one method covers the other. Thanks for the enlightment.
- #9
Dr.D
- 2,411
- 723
ramadhankd said:
In general, it is not a matter of this approach or that. In general systems, a general displacement will involve both translation and rotation, so the mode shape will include both sorts of displacement. There are some system types where we know that there is motion of only one type. For a spring-mass system, guided by a support, there will be no rotation and hence no need to consider angular motion. For several bodies on a well supported shaft, usually there will be only rotational motion and there is no need to consider translation. For a system involving two shafts coupled by a gear pair, there will be both translation and rotation involved.
Similar threads
- · Replies 5 ·
- · Replies 10 ·
- · Replies 4 ·
- · Replies 45 ·
- · Replies 0 ·
- · Replies 12 ·
- · Replies 14 ·