Calculating Resultant Force of F3 in 3D Space

AI Thread Summary
To calculate the resultant force of F3 in 3D space, the coordinate direction angles α, β, and γ are given as 110°, 25°, and 76°, respectively. The relationships between the angles and the force components are defined by the equations cos(α) = F3_x/F3, cos(β) = F3_y/F3, and cos(γ) = F3_z/F3. The discussion highlights the challenge of understanding these concepts in class, with users sharing their methods for finding vector components using trigonometric functions. The user successfully calculated the vector components of F3 and combined them with those of F1 and F2 to determine the resultant force. The conversation indicates a collaborative effort to grasp the underlying principles of statics and vector analysis.
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Homework Statement


If the coordinate direction angles for F3 = 650lb are α = 110∘, β = 25∘ and γ = 76∘, determine the magnitude of the resultant force acting on the eyebolt.

FIGURE:
p80.jpg



Homework Equations


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The Attempt at a Solution


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New semester, and so happy to start with a statics instructor I can't understand or follow . . . I seriously don't even know where to begin and neither does anyone else (we've tried lots, multiple times). I know there's some formulas like cos^2α + cos^2β + cos^2γ = 1 or something, but I don't even know where I would start.
 
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The direction angles are related to the resultant force and axial components by the relationships:

##cos(\alpha) = \frac{F_{3_x}}{F_3}##
##cos(\beta) = \frac{F_{3_y}}{F_3}##
##cos(\gamma) = \frac{F_{3_z}}{F_3}##
 
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Ah, learning more here than so far in class. Love it. Using those relationships, I got the vector components of F3, and using trig, got the vector components of F1 and F2, added the components together, and took the magnitude. Done √.

And the rest of the problem is just asking for alpha, beta, and gamma, which I now know! Thanks! I'll probably be back with a new thread in a bit unless the next problem uses the same relationships . . .
 
How did you get the vector components of F1?
 
To find F1
700cos(30)= 606 i
700sin(30)= 350 j
700cos(90)= 0 k
 

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