Free Body Diagrams: Static Equilibrium

AI Thread Summary
To determine the force F needed to keep blocks A and B in static equilibrium, the equations for horizontal and vertical forces must be analyzed, specifically where Fx=0 and Fy=0. The participant calculated Fx as Fcos20 and Fy as Fsin20 - 5 kg, but needed clarification on how to find acceleration (a). It was explained that the acceleration can be derived using the relationship between the weight of the blocks and the applied force components. Ultimately, the calculated force F was found to be 283 N, based on the correct application of the given angle and mass. The discussion emphasizes the importance of accurately applying static equilibrium principles in physics problems.
hunter007
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Homework Statement



Blocks A & B each have mass 5kg, and all contact surfaces are frictionless.

Determine the force F needed to keep the blocks in static equilibrium, and the forces on all contact surfaces.

1ecfa665f27769be8679c7df4a6cd8af.jpg


Homework Equations



I know I need to find where Fx= 0 and where Fy= 0.

The Attempt at a Solution



Fx = Fcos20
Fy= Fsin20 - 5 kg

Am I even close?
 
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Hi hunter007, welcome to PF.
When you apply force F to the systemis, the acceleration of the system is
a = F/(Ma + Mb)...(1). It is parallel to the ground.
Since block A is not attached to the block B, due the inertia, it will experience an equal and opposite acceleration. The block A will remain rest when component of the weight of the block A balances the component of the acceleration.
Equate these components and find a. Put this value in equation(1) to get F.
 
Could you explain a little more on how to get a? Once I find that I could find F.
 
mg*sinθ = a*cosθ.
Find a.
 
a = 5(9.8)*tan(30)
= 28.3

F= 28.3(5+5) = 283 N.

Did I do it right?
 
The given angle is 20 degrees.
 

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