Calculate the force on the other support

AI Thread Summary
A uniform thin rod weighing 100 N is supported by two bricks, each initially bearing 50 N. When one brick is removed, the force on the remaining support needs to be calculated. The discussion highlights confusion regarding the necessary equations, particularly in relation to torque and the role of length in calculations. It emphasizes that while length is typically important for torque problems, it may not be needed for this specific calculation. The key takeaway is to apply standard equations for linear and angular acceleration to determine the force on the remaining support.
H_Ab
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Homework Statement


A uniform thin rod of weight 100 N is supported horizontally by two bricks at its
ends. At t=0 one of these bricks is kicked out quickly. Calculate the force on the
other support immediately thereafter.

Homework Equations


I'm not sure if I am on the right track with this equation since I don't have the length and from what I know, I need the length for torque problems: Mg(L/2)sin(theta)

The Attempt at a Solution


I thought since each brick has a force of 50N that if one brick is locked the force on the supporting brick is -50N since it's a downward force. Please help me with the equation and how to go about it. Thanks
 
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H_Ab said:
I'm not sure if I am on the right track with this equation since I don't have the length and from what I know, I need the length for torque problems: Mg(L/2)sin(theta)
Follow that through and see what happens. Maybe the length will not feature in the answer.
(From dimensional analysis, you can predict that it won't. Given an acceleration (g) a mass and a length as input, and a force to be the result of multiplying and dividing these and raising them to powers, the only combination that works is acceleration * mass * constant.)
 
So what would my constant be? My weight would be 50N since it's for one brick, and my acceleration is 9.81m/s. I'm confused about the constant.
 
H_Ab said:
So what would my constant be?
You need to determine that by working through the usual equations.
Create unknowns for mass, length, angular acceleration and write out the standard equations for linear acceleration versus force and angular acceleration versus torque.
 

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