Calculate the mass of the disk?

  • Thread starter Thread starter alaa amed
  • Start date Start date
  • Tags Tags
    Disk Mass
AI Thread Summary
The discussion revolves around calculating the mass of a disk given the moment of inertia of a disk-clay system. The moment of inertia is provided as I = 1.5 kg m², with the clay's mass known to be 0.12 kg. Participants emphasize the need to correctly interpret the axis of rotation and the distances from the axis to the mass elements, as the radius for both the disk and clay is not specified. The moment of inertia for a disk is noted as I = 1/4 MR², but the moment of inertia for the clay needs clarification. A complete understanding requires a diagram and the full problem statement to avoid assumptions.
alaa amed
Messages
19
Reaction score
0

Homework Statement


The moment of inertia of the disk-clay system about the central axis of the disk is I = 1.5 kg m2
Disk's mass = M
The clay's mass = 0.12 kg
Calculate the mass of the disk?

Homework Equations


I = m r^2

The Attempt at a Solution


I thought that the moment of inertia may just be the sum of the individual moment of inertia's of the two objects. I know that I for a disk is equal to 1/4 MR^2, but I do not know the one for the clay.[/B]
 
Physics news on Phys.org
I thought that the moment of inertia may just be the sum of the individual moment of inertia's of the two objects.
Correct.

I know that I for a disk is equal to 1/4 MR^2, but I do not know the one for the clay.

You sure you've interpreted the axis correctly?
https://en.wikipedia.org/wiki/List_of_moments_of_inertia

Was there a diagram? As it is, we don't know r disk or rclay so can't find mclay.
 
billy_joule said:
Correct.



You sure you've interpreted the axis correctly?
https://en.wikipedia.org/wiki/List_of_moments_of_inertia

Was there a diagram? As it is, we don't know r disk or rclay so can't find mclay.
Yes. The diagram showed a piece of clay is sitting at the rim of the disk and not sliding on the disk.
 
Post the diagram and the entire question statement word for word, without it we're just guessing/relying on your interpretation.
 
upload_2016-6-9_1-36-57.png


A horizontal uniform disk with a mass M and a radius R=1.5m is free to rotate about its central axis perpendicular to the disk’s flat surface. A piece of clay with a mass m=0.12kg is sitting at the rim of the disk and does not slide on the disk. The moment of inertia of the disk-clay system about the central axis of the disk is I=1.5kgm2.At time t=0s, a constant external force, F, is applied tangentially at the rim of the disk causing the disk-clay system, initially at rest, to start rotating with a constant angular acceleration ofα=0.25rad/s2.
 
There's doesn't appear to be a question?
Can you follow the link in post #2 and identify the relevant MOI equations for the disk and clay?
 
alaa amed said:
perpendicular to the disk’s flat surface
Note that part of the axis specification.
 

Similar threads

Moment of inertia of a disk about an axis not passing through its CoM
Replies
11
Views
3K
Rotational Inertia: Hoop vs Disk
Replies
19
Views
4K
Analyzing torque of an automobile engine
Replies
6
Views
928
Parallel Axis Theorem Not Working
Replies
28
Views
1K
Two-Disk Pendulum Oscillation: Find Period w/ Mass M & Radius R
Replies
7
Views
2K
Why did I get this angular momentum problem wrong?
Replies
25
Views
11K
How Do You Calculate the Moment of Inertia for a Disk with a Central Hole?
Replies
2
Views
3K
Why Do Moments Balance in a Faraday Disk but Not the Forces?
Replies
1
Views
1K
Moment of inertia about center of mass with four holes?
Replies
9
Views
7K
Conservation of Angular Momentum in a Rotating System
Replies
1
Views
1K

Hot Threads

Recent Insights

Back
Top