How to solve (1+cosA)^2 - (1-cosA)^2 - sin^2A = ctgA*sinA*cosA

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The equation (1+cosA)^2 - (1-cosA)^2 - sin^2A = ctgA*sinA*cosA is being analyzed for potential errors in identity. The left side simplifies to 4cosA = 1, which does not hold true for all values of A, indicating it is not an identity. There is a suggestion of a possible typo in the original problem statement. The discussion emphasizes that for an equation to be an identity, it must be valid for all values of A, which is not the case here. Clarification on the problem's formulation is needed to proceed with a valid solution.
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Homework Statement


(1+cosA)^2-(1-cosA)^2-sin^2A=ctgA*sinA*cosA

Homework Equations


The Attempt at a Solution



I moved sin^2 to the right side, then expanded the left side and got to:
1+2cosA+cos^2A-1+2cosA-cos^2A=1
When I cancel the left side I get:
4cosA=1

I'd be very grateful if anyone help me.
 
Last edited:
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Looks good so far. What's the problem?

(I assume when you wrote sin^2, you meant sin2 a.)
 


You assumed right.
The problem is that both parts of the identity should be equal.
As far as I know, 4cosA is not equal to 1.
 


It's not an identity. For example, when a=pi/2, the lefthand side is -1 while the righthand side equals 0.

Perhaps there's a typo in the problem.
 


My task is to transform both parts so that they're equal. I don't know why you say it's not an identity.
 


If it were an identity, it would hold for all values of a. It clearly doesn't; therefore, it's not an identity.
 

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