Answer to Question #144815 in Trigonometry for saad

Firstly, let us solve the equation "x^2-1=x" which is equivalent to "x^2-x-1=0", and has the solutions "a=\\frac{1+\\sqrt{5}}{2}" and "b=\\frac{1-\\sqrt{5}}{2}". Therefore, "\\sin(a^2-1)=\\sin(a)" and "\\sin(b^2-1)=\\sin(b)". Since "\\frac{\\pi}{2}<a<\\pi" and "-\\frac{\\pi}{2}<b<0", we conclude that "|\\sin a|<1" and "|\\sin b|<1". Then the

infinite geometric progression "\\sin(a), \\sin^2(a), \\sin^3(a),..., \\sin^4(a), ..." has a scale factor "\\sin a" and the common ratio "\\sin a" with "|\\sin a|<1". Consequently,

"\\sin(a) + \\sin^2(a) + \\sin^3(a) + \\sin^4(a) + \u00b7 \u00b7 \u00b7=\\frac{\\sin(a)}{1-\\sin(a)}".

By analogy, "\\sin(b) + \\sin^2(b) + \\sin^3(b) + \\sin^4(b) + \u00b7 \u00b7 \u00b7=\\frac{\\sin(b)}{1-\\sin(b)}".

Therefore, "\\frac{\\sin(a^2-1)}{1-\\sin(a^2-1)}=\\frac{\\sin(a)}{1-\\sin(a)}" and "\\frac{\\sin(b^2-1)}{1-\\sin(b^2-1)}=\\frac{\\sin(b)}{1-\\sin(b)}", and we conclude that "a" and "b" are the solutions of the equation "\\frac{\\sin(x^2 \u2212 1)}{1 \u2212 \\sin(x^2 \u2212 1)} = \\sin(x) + \\sin^2(x) + \\sin^3(x) + \\sin^4(x) + \u00b7 \u00b7 \u00b7"