Calculating the Upward Force on Support B in a Bridge-Torque Problem

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AI Thread Summary
The discussion revolves around calculating the upward force at support B of a bridge with a truck on it. The problem involves determining the torque created by the truck and the bridge, leading to the equation Tclockwise = Tcounterclockwise. The calculated upward force at support B is found to be 4.5 × 10^4 N, while the book provides an incorrect answer of 4.6 × 10^3 N. Participants suggest that the discrepancy may arise from a difference in gravitational acceleration values used in the book. Overall, the method used for the calculation is confirmed to be correct, indicating a mistake in the book's answer.
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Homework Statement



The diagram below shows a 2.0 × 103 kg truck on a 20.0 m long uniform bridge that has a mass of 8.0 × 103 kg. If the truck is 6.0 m from support A, what is the magnitude of the upward force at support B?

[PLAIN]http://img534.imageshack.us/img534/6554/torquev.png

Homework Equations



T = rFsin(x)

The Attempt at a Solution



[PLAIN]http://img17.imageshack.us/img17/5487/torqueattempt.png

Tclockwise = Tcounterclockwise
Ttruck + Tbridge = TB
(6.0m)(2000 kg)(9.80 m/s^2) + (10.0m)(8 000kg)(9.80m/s^2) = (20.0m)F
90160 Nm / 20.0m = F
F = 4.5x104 N

However the answer given is 4.6x103 N.

Any thoughts?
 
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sum(torque) = 0

(6(mass-truck) + 10(mass-bridge))*g - 20FB = 0

FB = (9.8/20))*(6*2000+10*8000) which is about what you got so I don't know maybe they are using g = 9.81 and then are off by a factor of 10.
 
Maybe it's an incorrect answer... Hmm I'll wait for some other people's input too.

Thanks!
 
There is a mistake in the book answer. If you multiply the book answer by 9.8 you get your answer.
 
Your method is correct. :smile:
 

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