How do I determine torque required to accelerate

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SUMMARY

To determine the torque required to accelerate an object about the vertical axis from rest to 50 RPM in 5 seconds, first calculate the angular acceleration using the formula a = (final angular velocity - initial angular velocity) / time, resulting in 1.046 rad/s². The torque can be calculated using T = I * α, where I is the moment of inertia. For complex shapes, calculate the moment of inertia for each component and apply the Parallel Axis Theorem as necessary. The final torque calculation yields T = 0.17782 Nm based on the provided mass and radius.

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  • Familiarity with torque and its relation to moment of inertia
  • Knowledge of the Parallel Axis Theorem
  • Ability to calculate moment of inertia for various geometric shapes
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  • Study the application of the Parallel Axis Theorem in mechanical systems
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Referring to the attached diagram, how do I determine the torque required to uniformly accelerate the object about the vertical axis XX from rest to 50 rpm in 5 seconds?
 

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First step: Determine equation relating torque and angular acceleration.
 
What I have so far is
w = 50rpm = (50x2pi)/60 = 5.23 rad/s
w = wo+at
a=(5.23-0)/5 = 1.046rad/s^2
T=mr^2a
T=68x.05x1.046 0.17782Nm

But now I'm thinking I need to be using T=Iga (Moment of Inertia x acceleration) but I can't work out how to calculate the moment of inertia...i've only ever done that for a uniformly shaped object e.g. a cylinder.

Don't know, I may be just confusing myself as usual
 
Well, do you know how to calculate the I for an object which is made up of several smaller objects?
 
No, that's where I'm stuck...I am on the right track though with my assuming I need the moment of inertia?

I could guess that I calculate the "I" for each of the smaller objects then take the average?
 
you can calculate the second moment of area for each shape then

moment of inertia = mass per unit area x second moment of area
second moment of area for a triangle is bh^3 / 36
for a rectangle is bd^3 / 12
for a semis circle its 0.1102 R^4

then all you need to do is use the moment of inertia in the formula torque = moment of inertia x angular acceleration
 
OK, thanks for that. I'll give it a go
 
You'll need to calculate the mass moment of inertia of the different shapes and combine them. FYI, the mass moment of inertia is generally not equal to mass per unit area x second moment of area. You are dealing with 3-dimensional bodies.
 
This Table gives the moment of inertis for various shapes about various orthogonal axii:

http://www.engr.colostate.edu/~dga/mech324/Labs/Lab%2010/images/moment%20of%20inertia%20table.jpg

Use the Parallel Axis Theorem to get specific moments of inertia for each shape.

Bob S
 

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