let $y = \\frac{14cdot x + 10}{12cdot x^{2}+9cdot x + 7}$. find $\\frac{dy}{dx}$. $\\frac{dy}{dx}=$\nuse…

let $y = \\frac{14cdot x + 10}{12cdot x^{2}+9cdot x + 7}$. find $\\frac{dy}{dx}$. $\\frac{dy}{dx}=$\nuse $(3x + 5)^2$ to square $(3x + 5)$. use \/\ to divide. do not simplify your answer.
Answer
Explanation:
Step1: Identify the quotient - rule
The quotient - rule states that if $y=\frac{u}{v}$, then $\frac{dy}{dx}=\frac{u'v - uv'}{v^{2}}$, where $u = 14x + 10$ and $v=12x^{2}+9x + 7$.
Step2: Find the derivative of $u$
Differentiate $u = 14x+10$ with respect to $x$. Using the power - rule $\frac{d}{dx}(ax + b)=a$, we get $u'=\frac{d}{dx}(14x + 10)=14$.
Step3: Find the derivative of $v$
Differentiate $v = 12x^{2}+9x + 7$ with respect to $x$. Using the power - rule $\frac{d}{dx}(ax^{n})=nax^{n - 1}$, we have $v'=\frac{d}{dx}(12x^{2}+9x + 7)=24x+9$.
Step4: Apply the quotient - rule
Substitute $u$, $u'$, $v$, and $v'$ into the quotient - rule formula: $\frac{dy}{dx}=\frac{14(12x^{2}+9x + 7)-(14x + 10)(24x + 9)}{(12x^{2}+9x + 7)^{2}}$
Answer:
$\frac{14(12x^{2}+9x + 7)-(14x + 10)(24x + 9)}{(12x^{2}+9x + 7)^{2}}$