Question
If $\text{x}=2\cos\text{t}-\cos2\text{t},\text{y}=2\sin\text{t}-\sin2\text{t},$ find $\frac{\text{d}^2\text{y}}{\text{dx}^2}\ \text{at}\ \text{t}=\frac{\pi}{2}.$
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$\frac{\text{x}-5}{1}=\frac{2\text{y}+6}{-2}=\frac{\text{z}-3}{1}$ and $\frac{\text{x}-2}{3}=\frac{\text{y}+1}{4}=\frac{\text{z}-6}{5}$
$\int\frac{\text{x}^3}{\text{x}^4+\text{x}^2+1}\text{ dx}$
$\text{f(x)} = \begin{cases} \frac{\text{sin (a + 1)x + sin x}}{\text{x}},\quad&\text{if x < 0}\\ \text{c}, \quad &\text{if x = 0}\\ \frac{\sqrt{\text{x + bx}^{2}}-\sqrt{\text{x}}}{\text{bx}^{3/2}},\quad&\text{if x > 0} \end{cases}$.