Oblique Triangle and the Law of Cosines: Solving for Change in Piston Rate

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The discussion revolves around solving a problem involving an oblique triangle and the Law of Cosines to determine the rate of change of a piston. The given parameters include an angle θ, side lengths x and c, and a rate of change dx/dt. Participants express confusion about the relationship between the triangle's sides (a, b, c) and the variable x, as well as the meaning of "the rate of change of the piston." The conversation suggests that finding the derivative of the Law of Cosines equation may be necessary to solve the problem. Clarification on the original problem statement is requested for better understanding.
courtrigrad
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Hello all

I was given a problem involving cranks and pistons. I do not understand the exact question, but it involved an oblique triangle where you had to apply the Law of cosines. Let's say you are given \theta = \frac{\pi}{4}, x=7, c = 11 where c where c is the hypotenuse and \frac{dx}{dt} = 200. Find the rate of change of the piston.

So here it is:

c^2 = a^2 + b^2 - 2ab\cos C
a^2 = b^2 + c^2 - 2bc\cos A
b^2 = a^2 + c^2 - 2ac\cos B


Ok so how would I solve for the change of the piston? Would I just find the derivative of the first Law of Cosine expression and substitute in the values?
 
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Okay,what's the connection betweent the 4 variables:a,b,c & x?? :confused:

Daniel.
 
What is x and what in the world is "the change of the piston"? (How does a piston change?)
 
sorry I meant to say the rate of change of the piston . x is one of the sides of the triangle.
 
Still doesn't make too much sense... What about a,b,c ?What are they...??

HINT:Post the initial problem's text in original form...


Daniel.
 

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