Determining Force of Fb: Homework Statement

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To determine the force of Fb acting on an object at the origin, the forces Fa and Fb need to be analyzed in terms of their components. Fa is given as 4500 N at an angle of 60 degrees, while Fb is at 140 degrees. The approach involves using vector decomposition and Newton's Second Law, indicating that the net force must equal zero if the object is in static equilibrium. The initial attempt using the law of sines yielded an incorrect value for Fb, suggesting a need for a different method to resolve the forces accurately. Properly breaking down the vectors into horizontal and vertical components will simplify the calculation of Fb.
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Homework Statement



Two forces, Fa and Fb, act on an object located at the origin. Fa has a force of 4500 N and has an angle of 60 degrees with respect to the positive x-axis. Fb has an angle of 140 degrees with respect to the positive x-axis. Determine the force of Fb.


Homework Equations



Component vector equations (possibly):

sin θ = Vy/V

cos θ = Vx/V

tan θ = Vy/Vx

V^2 = Vx^2 + Vy^2

Newton's Second Law:

F = ma

The Attempt at a Solution



I split up Fa into it's components, but that didn't really help me to solve for Fb. I also had the idea of using the law of sines:

sin 140/4500 N = sin 60/b

However, the answer came out to 6062 N, and my textbook has the answer listed as 6890 N. Besides, my book doesn't even mention the law of sines, so this probably isn't the correct method.

Any help would be greatly appreciated.
 
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It sounds as if (although you didnt mention it) that the box in in static equilibrium??

If this is true then the net force must be zero, decomposing the vectors into two directions (vertical & horizontal) should make this easier

-spoon
 
That makes things a great deal easier. Thanks for your help!
 

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