Function Posted February 20, 2014 Share Posted February 20, 2014 (edited) Hello everyone I was, with another topic in the back of my head (the one about the integration constant), making the following reasoning: In a right triangle, let's say that the two acute angles are [math]\alpha[/math] and [math]\beta[/math]. Then is true that [math]\alpha+\beta=\frac{\pi}{2}[/math] [math]\Leftrightarrow \alpha=\frac{\pi}{2}-\beta[/math] [math]\Leftrightarrow \tan{\alpha}=\tan{\left(\frac{\pi}{2}-\beta\right)}[/math] [math]\Leftrightarrow \frac{\sin{\alpha}}{\cos{\alpha}}=\frac{\sin{\left(\frac{\pi}{2}-\beta\right)}}{\cos{\left(\frac{\pi}{2}-\beta\right)}}[/math] [math]\Leftrightarrow \frac{\sin{\alpha}}{\cos{\alpha}}=\frac{\cos{\beta}}{\sin{\beta}}[/math] [math]\Leftrightarrow \cos{\alpha}\cos{\beta}=\sin{\alpha}\sin{\beta}[/math] According to Wolfram Alpha, left part and right part together would be (probably one of Simspon's formulas): [math]\Leftrightarrow \frac{1}{2}\left(\cos{\left(\alpha-\beta\right)}+\cos{\left(\alpha+\beta\right)}\right)=\frac{1}{2}\left(\cos{\left(\alpha-\beta\right)}-\cos{\left(\alpha+\beta\right)}\right)[/math] [math]\Leftrightarrow \cos{\left(\alpha+\beta\right)}=-\cos{\left(\alpha+\beta\right)}[/math] [math]\Leftrightarrow 1=-1[/math] Now, I will most certainly have made a mistake, and seen the result of this 'equality', a serious mistake, resulting in a pretty stupid topicquestion. Could someone help me? Perhaps I made a mistake in Wolfram? (I entered: cos(x)*cos(y) and sin(x)*sin(y) to get the equality after "According to ..." Thanks. Function Edited February 20, 2014 by Function Link to comment Share on other sites More sharing options...
studiot Posted February 20, 2014 Share Posted February 20, 2014 (edited) Consider alpha = 20 degrees and beta = 50 degrees. Are you really offering that cos (20+50) = - cos (70) ? Some of these statements depend upon which quadrant your sum ends up in, have you heard of CAST? Edited February 20, 2014 by studiot Link to comment Share on other sites More sharing options...
Function Posted February 20, 2014 Author Share Posted February 20, 2014 Consider alpha = 20 degrees and beta = 50 degrees. Are you really offering that cos (20+50) = - cos (70) ? Some of these statements depend upon which quadrant your sum ends up in, have you heard of CAST? Let's say both alpha and beta are in the first quadrant; I haven't heard of CAST yet. Feel free to inform me, should you feel like doing so. Link to comment Share on other sites More sharing options...
John Posted February 20, 2014 Share Posted February 20, 2014 (edited) [math]\cos(\alpha + \beta) = \cos\left(\frac{\pi}{2}\right) = 0[/math], so the final line in the original post should read [math]0 = 0[/math] and not [math]1 = -1[/math]. Edited February 20, 2014 by John 1 Link to comment Share on other sites More sharing options...
Function Posted February 20, 2014 Author Share Posted February 20, 2014 [math]\cos(\alpha + \beta) = \cos\left(\frac{\pi}{2}\right) = 0[/math], so the final line in the original post should read [math]0 = 0[/math] and not [math]1 = -1[/math]. Ah yes.. You see it was a stupid topicquestion How could I've ever stated that if 0*a = 0*b, which is always true, a = b Link to comment Share on other sites More sharing options...
studiot Posted February 21, 2014 Share Posted February 21, 2014 (edited) Of course, John is quite right, the only entity for which A = -A is zero so you are just working on keeping zero to itself. I was thinking about the general trig sum of two angles. CAST is a way of remembering which trig function is positive in which quadrant, here is a list. Edited February 21, 2014 by studiot Link to comment Share on other sites More sharing options...
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