Angular Kinematics & Moment of Inertia: IforPointM

AI Thread Summary
The discussion focuses on calculating the moment of inertia for four point masses located in the xy plane, specifically when rotating about the x, y, and z axes. Participants emphasize the importance of converting mass to kilograms and coordinates to meters for accurate calculations. The formula for moment of inertia, I = Σ m_i r_i^2, is reiterated, highlighting the need to determine the distance from each mass to the respective axis of rotation. Visual aids, such as diagrams, are recommended to facilitate understanding of distances for each axis. An example calculation for mass 1 is requested to clarify the process further.
huybinhs
Messages
229
Reaction score
0

Homework Statement



Four point masses are arranged on the xy plane as follows.

Mass1 = 27.0 grams at x = 2.00 cm and y = 2.00 cm.

Mass2 = 31.0 grams at x = 0.00 cm and y = 4.00 cm.

Mass3 = 49.0 grams at x = -3.00 cm and y = -3.00 cm.

Mass4 = 31.0 grams at x = -1.00 cm and y = 2.00 cm.

a) What is the rotational inertia if this collection of masses is rotating about the x axis?

b) What is the rotational inertia if this collection of masses is rotating about the y axis?

c)What is the rotational inertia if this collection of masses is rotating about the z axis?



Homework Equations



I = mr2

The Attempt at a Solution



I need to change to the right units:

Mass 1 = 0.027 kg at x = 0.02 m and y = 0.02 m

Mass 2 = 0.031 kg at x = 0.00 m and y = 0.04 m

Mass 3 = 0.049 kg at x = -0.03 m and y = -0.03 m

Mass 4 = 0.031 kg at x = -0.01 m and y = 0.02 m

Now I know each mass, and converted to the right units. What should I do next? Thanks!
 
Physics news on Phys.org
The moment of inertia about an axis is

I = \sum_i m_i r_i^2,

where r_i is the distance from the point i to the axis of rotation. For each part you will need to compute the distances from each mass to the relevant axis of rotation and then compute that sum. It will probably help to draw a picture for yourself.
 
fzero said:
The moment of inertia about an axis is

I = \sum_i m_i r_i^2,

where r_i is the distance from the point i to the axis of rotation. For each part you will need to compute the distances from each mass to the relevant axis of rotation and then compute that sum. It will probably help to draw a picture for yourself.

Ok, so on mass 1, we have x = 0.02 m and y = 0.02m. Therefore we the mass on those point (0.02, 0.02), so how can I find ri ?
 
huybinhs said:
Ok, so on mass 1, we have x = 0.02 m and y = 0.02m. Therefore we the mass on those point (0.02, 0.02), so how can I find ri ?

The value of ri depends on which axis of rotation you are considering. It's best to draw a picture in the x-y plane with all of the points on it. Then you'll be able to just read off the distances from the x and y axes. For the z axis you can use the Pythagorean formula.
 
fzero said:
The value of ri depends on which axis of rotation you are considering. It's best to draw a picture in the x-y plane with all of the points on it. Then you'll be able to just read off the distances from the x and y axes. For the z axis you can use the Pythagorean formula.

Could u give an example on mass 1 please!
 
Thread 'Variable mass system : water sprayed into a moving container'

Thread 'Variable mass system : water sprayed into a moving container'

Starting with the mass considerations #m(t)# is mass of water #M_{c}# mass of container and #M(t)# mass of total system $$M(t) = M_{C} + m(t)$$ $$\Rightarrow \frac{dM(t)}{dt} = \frac{dm(t)}{dt}$$ $$P_i = Mv + u \, dm$$ $$P_f = (M + dm)(v + dv)$$ $$\Delta P = M \, dv + (v - u) \, dm$$ $$F = \frac{dP}{dt} = M \frac{dv}{dt} + (v - u) \frac{dm}{dt}$$ $$F = u \frac{dm}{dt} = \rho A u^2$$ from conservation of momentum , the cannon recoils with the same force which it applies. $$\quad \frac{dm}{dt}...
View full post »

Similar threads

How Does Angular Momentum Conservation Affect Asteroid Collision Dynamics?
7
Replies
335
Views
14K
Angular Momentum Problem: Mouse walking on a rotating turntable
Replies
5
Views
1K
Moment of inertia of a cuboid parallel to one of its faces (repost with diagram)
Replies
25
Views
2K
Two objects joined by a rectilinear cable rotating
Replies
8
Views
899
Moment of inertia of a rod bent into a square
Replies
12
Views
2K
Rolling without slipping problem
Replies
42
Views
3K
Angular acceleration of plank hanging off edge with a weight
Replies
7
Views
1K
Finding angular velocity when the CM is directly below the pivot
Replies
15
Views
3K
Moment of inertia of door rotation
Replies
1
Views
3K
Rotational torque and kinematics of a rod
Replies
5
Views
2K

Hot Threads

Recent Insights

Back
Top