How to Solve a Trigonometric Equation with Multiple Solutions?

AI Thread Summary
To solve the equation tan 2x + sec 2x = cos x + sin x for 0 ≤ x ≤ 360, the initial approach contained errors leading to incorrect solutions. The correct steps involve recognizing that (cos x + sin x)² equals one, which simplifies the equation properly. After correcting mistakes, the final solution reveals that x can be 0, 270, or 360 degrees. The key transformation includes using the identity to relate cos x and sin x effectively. The discussion highlights the importance of careful algebraic manipulation in solving trigonometric equations.
Johnny Leong
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How to solve this equation:
tan 2x + sec 2x = cos x + sin x where 0<=x<=360
I solve it in this way but cannot find the right answer:
(sin 2x + 1) / cos 2x = cos x + sin x
(cos x + sin x)^2 / cos 2x = cos x + sin x
(cos x + sin x) / cos 2x = 1
sqrt(2) cos(x - 45) sec 2x = 1
sec 2x cos(x - 45) = 1 / sqrt(2)

x = 90 or 360

But the correct answers are x = 0 or 270 or 360.
 
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(cos x + sin x)2 equals one, how did you figure that it equals (sin 2x + 1)?
 
sec 2x cos(x - 45) = 1 / sqrt(2)

x = 90 or 360

That seems a pretty big leap; maybe if you finished doing the work on it?



(cos x + sin x)2 equals one

You're thinking of cos2x + sin 2 x.
 
:rolleyes: Thanks.
 
I have solved the problem, I have made some careless mistakes above.
The solution is:
tan 2x + sec 2x = cos x + sin x where 0<=x<=360
(sin 2x + 1) / cos 2x = cos x + sin x
(cos x + sin x)^2 / cos 2x = cos x + sin x
(cos x + sin x) / cos 2x = 1
(cos x + sin x) / [(cos x + sin x)(cos x - sin x)] = 1
cos x - sin x = 1
sqrt(2) cos(x + 45) = 1
cos(x + 45) = 1 / sqrt(2)
Then x = 0 or 270 or 360
 

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