Find the Normal Force of a box in an elevator cab

AI Thread Summary
The discussion revolves around calculating the normal force acting on a 12.0 kg box of catnip in an elevator cab. Given the masses of the cabs and the tension in the cable, the normal force is derived using the equation N = m(a + g). The tension is used to find acceleration and subsequently the normal force, which is calculated to be approximately 176 N. A participant points out an error in the calculation process regarding the treatment of gravitational force. The conversation emphasizes the importance of correctly applying physics equations in problem-solving.
ayesha91
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Homework Statement



Elevator cabs A and B are connected by a short cable and can be pulled upward or lowered by the cable above cab A. Cab A has mass 1700 kg; cab B has mass 1300 kg. A 12.0 kg box of catnip lies on the floor of cab A. The tension in the cable connecting the cabs is 1.91×10^4 N. What is the magnitude of the normal force on the box from the floor?"

Homework Equations



F=ma

The Attempt at a Solution



T-mBg=mBa
T = mB(a+g)
a+g=T/mB

N=m(a+g) = m (T/mB)= (12.0)(1.91×10^4/1300) = 176 N (rounded value)
 
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N=m(a+g) = m (T/mB)
Why did you drop the "g" in this step? Other than that, it looks good to me.
 
ayesha91 said:
T-mBg=mBa
T = mB(a+g)
a+g=T/mB

I found that a+g=T/mB
So, I replaced a+g by T/mB
 
You are correct! I bungled the move from Mb to the catnip.
 

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