Torque and Power required to turn a plate

AI Thread Summary
The discussion centers on calculating the torque and power required to turn a cast iron table using a locking Geneva mechanism. The user calculated an angular acceleration of 10.08 rad/s² and a moment of inertia of 612.3 kg·m², resulting in a torque of 6172 N·m. However, there is confusion regarding the RPM calculation, as 5.04 rad/s translates to only 48 rpm, not 2888 rpm as initially stated. Additionally, it is noted that the Geneva mechanism's operation involves both acceleration and deceleration phases, which affects the energy calculations. The user is prompted to reconsider their power requirement, as the initial figure of 1867 kW seems excessively high.
superman22x
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I have a question. I am working on a small project for class. We have locking Geneva mechanism that turns a table made of cast iron 72* in .5 seconds. The table mass is calculated to be 7300 kg (D=1.25m, h=.350m).

Based on the 72* in .5 seconds, I calculated alpha to be 10.08 rad/s^2. Using I=m*r^2/2, I calculated I to be 612.3. Torque (Nm)=alpha*I=6172N*m.

For power, I used the equation P (Kw) = (Torque*2*pi*rpm)/60,000. And I used alpha*t to solve for the RPM, which ended up being 5.04 rad/s = 2888 rpm. My power required ends up being 1867Kw which seems ridiculously high. Am I calculating this correctly?

Let me know of any other info you need.
 
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I didn't know what a Geneva mechanism was before this thread.

http://www.brockeng.com/mechanism/Geneva.htm


5.04 rad/s is < 60 rotations per minute.
2 pi rad/s is 1 rotation/second = 60 rpm, so I don't know where you got 2888 rpm.

A bigger problem is that the continuously rotating wheel accelerates the slotted wheel for the first 0.25 seconds, but decelerates it in the next 0.25 seconds, and it will probably get most of the kinetic energy from the first 0.25 seconds back. The continuously moving wheel will than have the time that the slotted wheel is stationary to get back to its origional speed.
 

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