How does torque relate to changes in angular momentum?

AI Thread Summary
The discussion revolves around understanding the relationship between torque and changes in angular momentum. A problem is presented where an object's angular momentum changes by 20 kg*m²/s over 4 seconds, prompting questions about the magnitude of torque involved. Participants suggest using the equations L = I*w and T = I*angular acceleration, while also noting the relationship between angular acceleration and changes in angular velocity. Confusion arises regarding how to calculate angular acceleration and torque, leading to the conclusion that torque can be expressed as τ = ΔL/Δt. The conversation emphasizes the importance of these formulas in solving related physics problems.
fro
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I have no clue as to how to solve this. Any hints/suggestions will be helpful.

Problem: An object's angular momentum changes by 20kg*m^2/s in 4 seconds. What magnitude of torque acted on the object?
 
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Do you know of any expressions which relate a change in momentum to a torque? Or perhaps a torque to an angular acceleration?
 
Hootenanny said:
Do you know of any expressions which relate a change in momentum to a torque? Or perhaps a torque to an angular acceleration?

Maybe I could use L = I*w and T = I*angular acceleration? But I don't know what to do after that.
 
It may be useful to note that for a constant acceleration;

\alpha = \frac{\Delta\omega}{\Delta t}
 
Hootenanny said:
It may be useful to note that for a constant acceleration;

\alpha = \frac{\Delta\omega}{\Delta t}

Sorry, I'm really confused about this.

By your equation, angular acceleration should be 5kg*m^2. Not sure how and where to plug it into get the answer.
 
fro said:
Sorry, I'm really confused about this.

By your equation, angular acceleration should be 5kg*m^2. Not sure how and where to plug it into get the answer.
Another useful observation; from your equation (I is constant);

\Delta L = I \Delta\omega \Leftrightarrow I = \frac{\Delta L}{\Delta \omega}
 
Hootenanny said:
Another useful observation; from your equation (I is constant);

\Delta L = I \Delta\omega \Leftrightarrow I = \frac{\Delta L}{\Delta \omega}

\Delta L = 20{kg} \cdot{m^2}
\alpha = \frac{20kg\cdotm^2}{4s} = {5kg} \cdot {m^2}
\tau = \frac{\Delta L}{\Delta \omega} \times \alpha
\tau = \frac{20kg\cdot m^2}{\Delta \omega} \times {5kg} \cdot {m^2}

So, how would I find \Delta \omega?
 
Last edited:
From my previous posts;

Hootenanny said:
\alpha = \frac{\Delta\omega}{\Delta t}\;\;\;\;\;\; (1)

Hootenanny said:
\Delta L = I \Delta\omega \Leftrightarrow I = \frac{\Delta L}{\Delta \omega}\;\;\;\;\;\; (2)

Using those to facts and the formula;

\tau = I\alpha \stackrel{(1)\;\&\;(2)}{\Rightarrow} \tau = \frac{\Delta L}{\Delta \not{\omega}} \cdot \frac{\Delta\not{\omega}}{\Delta t}

\therefore \boxed{\tau = \frac{\Delta I}{\Delta t}}

This is a good formula to remember :wink:
 

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