Solve a Physics Problem: Normal Force Calculation for a 38.0kg and 17.0kg Box

AI Thread Summary
The discussion focuses on calculating the normal force exerted by a 38.0 kg box on a 17.0 kg box resting on top of it. The normal force that the 17.0 kg box exerts on the 38.0 kg box is determined to be 166.77 N, which is equal to the weight of the 17.0 kg box. Using Newton's second law, the normal force can be confirmed as 168 N, accounting for gravitational force. The calculations emphasize the relationship between the forces acting on both boxes and the application of Newton's laws. Overall, the normal force exerted by the 38.0 kg box on the 17.0 kg box is effectively understood through these principles.
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A 38.0 kg box (m1) rests on a table. A 17.0 kg box (m2) is placed on top of the 38.0 kg box. What is the normal force that the 38.0 kg box exerts on the 17.0 kg box.

I found that the normal force of just the 38.0kg box is 372.78N and the normal force of just the 17.0kg box is 166.77N. But I don't know how to figure out the normal force that the 38.0kg box exerts on the 17.0kg box.

any help?
 
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The 17.0 kg box exerts a force of 166.77 N on the 38.0 kg box. Therefore, the normal force is _______. <--- figure it out yourself.
 
Upward direction : positive; downward direction : negative
\begin{array}{cc}\\<br /> Consider\ mass\ m_1:\\<br /> Newton&#039;s \ 2nd\ Law\\<br /> \sum \vec{F} =m\vec{a}= 0 \ in\ this\ case\\<br /> Fm_2m_1+(-m_2g)=0\\<br /> Fm_2m_1 = m_2g\\<br /> = 17.0*9.81\\<br /> = 168 \ N\\<br /> Fm_2m_1= - Fm_1m_2 : Newton&#039;s \ 3rd\ Law\\<br /> \end{array}
 

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Thank you very much guys. Leong, the picture really helps.
Thanks again.
 

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