Solving Equations: Acos(?) & Asin(?)

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The discussion focuses on solving equations involving the components of vectors using trigonometric functions. The user expresses confusion about determining the angle in degrees rather than the component along an axis. A suggestion is made to utilize the vector dot product properties to find the angle, specifically using the formula cos(θ) = (A·B) / (|A||B|). The conversation emphasizes the need to find angles with respect to the x, y, and z axes by applying the dot product with the unit vectors. Understanding these concepts is crucial for solving more complex problems in vector analysis.
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Homework Statement


http://gyazo.com/f4c02f2a57b24a39dfee575837e0a807.png


Homework Equations


Ax = A cos (?)
Ay = A sin(?)


The Attempt at a Solution


I tried putting the magnitude of x cos (?) but honestly have no idea what to do. Thanks
 
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Help?
 
Is this a joke?
 
You were asked for the angle in degrees, not for the component along that axis. If you know the value of BcosΘ, as well as the value of B, it is no problem to find cosΘ and consequently, Θ itself.

If that doesn't quite click for you, the following approach may be useful as and more instructive for more complicated problems.

Use the properties of the vector dot product to find the answer.

\vec A \cdot \vec B = |A||B|\cos{\theta}
So to find the angle, \cos{\theta}=\frac{\vec A \cdot \vec B}{|A||B|}

In your case, you want to find the angle with the x, y, and z axes respectively. So the vectors you'd need to dot would be, \vec B \cdot \hat x, \vec B \cdot \hat y and \vec B \cdot \hat z
 

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