Calculate Rotational Inertias of 4 Particles

  • Thread starter Thread starter kiwinosa87
  • Start date Start date
  • Tags Tags
    Rotational
AI Thread Summary
The discussion revolves around calculating the rotational inertias of four particles with specified masses and coordinates. The key formula for rotational inertia is confirmed as I = mR^2, where R is the distance from the axis of rotation. Participants emphasize the importance of determining the correct R for each axis (x, y, z) when calculating total rotational inertia. The conversation highlights the need for visual aids, like diagrams, to better understand the distances involved. Overall, the focus is on applying the correct methodology to solve the problem effectively.
kiwinosa87
Messages
8
Reaction score
0
I absolutely suck at physics. Here is the question I'm stuck on:
The masses and coordinates of four particles are as follows: 69 g, x = 2.0 cm, y = 2.0 cm; 38 g, x = 0, y = 4.0 cm; 21 g, x = -3.0 cm, y = -3.0 cm; 24 g, x = -2.0 cm, y = 4.0 cm. What are the rotational inertias of this collection about the (a) x, (b) y, and (c) z axes?

Any help would be appreciated!
 
Physics news on Phys.org
How do you find the rotational inertia of a particle about an axis? If the particle has mass "m" and is a distance "R" from the axis, what is its rotational inertia about that axis?
 
would you use the same equation for a particle as you would for an sphere? I know that the rotational inertia is equal to mR^2. Is that what you mean?
 
kiwinosa87 said:
would you use the same equation for a particle as you would for an sphere?
Not sure what you mean. (My immediate answer would be no.)
I know that the rotational inertia is equal to mR^2. Is that what you mean?
Yes. To find the rotational inertia of several particles, just find it for each particle and add them up. The only tricky part is making sure you are using the correct "R", since it depends on what axis you are using.
 
Okie, I understand that that's the correct equation, but how do I distinguish between the different axes??
 
Not sure where the problem is. The axes you need to consider are just the usual x, y, & z axes.

To test your understanding, what would "R" be for the first particle about the x-axis? Draw yourself a picture.
 
okie, so it's either 2, or the square root of 8, or maybe 7...? I am sorry, I'm seriously physics retarded!
 
OKie, so I guess you gave up on me...any other takers...?
 
kiwinosa87 said:
OKie, so I guess you gave up on me...any other takers...?
Even the helpers have to go do other things sometimes.

From reading earlier posts I see you have the fundamental equation needed to find the rotational inertia of each particle. The total rotational inertia is the sum over the individual particles. What you need to know is the distance R for each particle from the axis of rotation. Those distances might be different for each axis.
 

Similar threads

Degree of Freedom: Definition & Examples - Confused? Ask Here!
Replies
11
Views
2K
Rotational Inertia of a Rigid Body with Joined Rods
Replies
2
Views
5K
Finding angular velocity when the CM is directly below the pivot
Replies
15
Views
3K
Rotational inertia of particle system
Replies
3
Views
12K
Rotation of a Rigid Body: Finding Center of Mass and Moment of Inertia
Replies
9
Views
2K
Understanding Moments of Inertia for Solving Homework Problems
Replies
12
Views
2K
Calculating Angular Speed of Rotating Apparatus with Attached Mass and Rod
Replies
1
Views
2K
Rotation of Rigid Bodies: Rotating stick with disc on top
Replies
9
Views
2K
How Does Coriolis Force Influence Particle Motion in Rotating Systems?
Replies
3
Views
1K
Y coordinate of a charged particle
Replies
9
Views
2K

Hot Threads

Recent Insights

Back
Top