Let $ \displaystyle f(x)=\frac{{\cos x}}{{1+\sin x}}+\frac{{1+\sin x}}{{\cos x}}.$
(a) Prove that $ \displaystyle f(x)=2\sec x.$
(b) Hence solve the equation $ \displaystyle f(x)=4$ where 0 < x < 2π.
(a) $ \displaystyle f(x)=\frac{{\cos x}}{{1+\sin x}}+\frac{{1+\sin x}}{{\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{{{{{\cos }}^{2}}x+{{{(1+\sin x)}}^{2}}}}{{(1+\sin x)\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{{{{{\cos }}^{2}}x+1+2\sin x+\sin^{2}{{x}}}}{{(1+\sin x)\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{{\sin {{x}^{2}}+{{{\cos }}^{2}}x+1+2\sin x}}{{(1+\sin x)\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{{1+1+2\sin x}}{{(1+\sin x)\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{{2(1+\sin x)}}{{(1+\sin x)\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{2}{{\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =2\sec x$
(b) $\displaystyle \ f(x)=4$
$ \displaystyle \therefore 2\sec x=4$
$ \displaystyle \ \ \ \sec x=2$
$ \displaystyle \ \ \ x=\frac{\pi }{3}$ or $ \displaystyle \ \ \ x=\frac{5\pi }{3}$
(a) Prove that $ \displaystyle f(x)=2\sec x.$
(b) Hence solve the equation $ \displaystyle f(x)=4$ where 0 < x < 2π.
Solution
(a) $ \displaystyle f(x)=\frac{{\cos x}}{{1+\sin x}}+\frac{{1+\sin x}}{{\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{{{{{\cos }}^{2}}x+{{{(1+\sin x)}}^{2}}}}{{(1+\sin x)\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{{{{{\cos }}^{2}}x+1+2\sin x+\sin^{2}{{x}}}}{{(1+\sin x)\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{{\sin {{x}^{2}}+{{{\cos }}^{2}}x+1+2\sin x}}{{(1+\sin x)\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{{1+1+2\sin x}}{{(1+\sin x)\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{{2(1+\sin x)}}{{(1+\sin x)\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =\frac{2}{{\cos x}}$
$ \displaystyle \ \ \ \ \ \ \ =2\sec x$
(b) $\displaystyle \ f(x)=4$
$ \displaystyle \therefore 2\sec x=4$
$ \displaystyle \ \ \ \sec x=2$
$ \displaystyle \ \ \ x=\frac{\pi }{3}$ or $ \displaystyle \ \ \ x=\frac{5\pi }{3}$
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