Can Angular Momentum Equations Be Adapted from Linear Momentum Formulas?

  • Context: Undergrad 
  • Thread starter Thread starter lefnire
  • Start date Start date
  • Tags Tags
    Momentum
Click For Summary
SUMMARY

The discussion confirms that angular momentum equations can be adapted from linear momentum formulas using the conservation of momentum principles. The final angular velocity equation is derived as ω1,f = (COR + 1)I2ω2 - ω1(I1 - COR*I2) / (I1 + I2). It is emphasized that the coefficient of restitution (COR) must be defined appropriately for both linear and rotational contexts, as they differ significantly. Dan asserts that while the adaptation is valid, careful consideration of the COR's definition is crucial.

PREREQUISITES
  • Understanding of linear momentum and its conservation principles.
  • Familiarity with angular momentum and its conservation laws.
  • Knowledge of the coefficient of restitution (COR) and its implications in physics.
  • Basic algebraic manipulation skills for equation derivation.
NEXT STEPS
  • Study the derivation of the conservation of angular momentum equations.
  • Research the differences between linear and angular coefficients of restitution.
  • Explore practical applications of angular momentum in real-world scenarios.
  • Learn about advanced topics in dynamics, such as rotational kinematics and energy conservation.
USEFUL FOR

Physics students, mechanical engineers, and anyone interested in the principles of momentum conservation in both linear and rotational contexts.

lefnire
Messages
1
Reaction score
0
using the conservation of linear momentum with a known coefficient of restitution (COR), one can obtain the final velocity of object 1 with this eq'n:
Code: 
V1,f= [U](COR+1)M2V2-V1(M1-COR*M2)[/U]
               M1+M2

conservation of linear momentum looks like 'mv', where conservation of angular momentum looks like 'Iω'. Based on this, can I sub in 'I' for every 'm' and 'ω' for every 'v' in the previous equation, such that

Code: 
ω1,f= [U](COR+1)I2ω2-ω1(I1-COR*I2)[/U]
               I1+I2

?
 
Physics news on Phys.org
lefnire said:
using the conservation of linear momentum with a known coefficient of restitution (COR), one can obtain the final velocity of object 1 with this eq'n:
Code: 
V1,f= [U](COR+1)M2V2-V1(M1-COR*M2)[/U]
               M1+M2

conservation of linear momentum looks like 'mv', where conservation of angular momentum looks like 'Iω'. Based on this, can I sub in 'I' for every 'm' and 'ω' for every 'v' in the previous equation, such that

Code: 
ω1,f= [U](COR+1)I2ω2-ω1(I1-COR*I2)[/U]
               I1+I2

?

I will go so far as to answer this question with a "yes," but have some care.

It all depends on how you define the COR. Obviously, the COR associated with the linear problem will not be the same as the COR associated with the rotational problem...

-Dan
 

Similar threads

Undergrad Conservation of angular momentum in the iceskater example
  • · Replies 10 ·
Replies
10
Views
3K
Undergrad Conservation of linear and angular momentum
  • · Replies 9 ·
Replies
9
Views
2K
Undergrad A question about angular momentum and torques....
  • · Replies 6 ·
Replies
6
Views
2K
Undergrad Conservation of angular momentum and its counterpart for linear momentum
  • · Replies 13 ·
Replies
13
Views
3K
Undergrad What is conserved in collisions: linear momentum or angular momentum?
  • · Replies 107 ·
4
Replies
107
Views
11K
Graduate Conservation of angular momentum in a two ball collision
  • · Replies 7 ·
Replies
7
Views
4K
Angular and Linear Momentum Problem
  • · Replies 18 ·
Replies
18
Views
4K
Graduate Angular vs Linear Momentum in Collisions
  • · Replies 5 ·
Replies
5
Views
8K
Undergrad Can Linear and Angular Momentum Be Combined in Mechanics?
  • · Replies 5 ·
Replies
5
Views
2K
Graduate Conservation of linear momentum and energy in a collision
  • · Replies 2 ·
Replies
2
Views
3K