Sketch the graph of the polynomial function $$ p(x) = -20x^3-12x^2+7x+2 $$
Tap the blue points to see coordinates.
STEP 1:Find the x-intercepts
To find the x-intercepts solve, the equation $ \color{blue}{ -20x^3-12x^2+7x+2 = 0 } $
The solutions of this equation are:
$$ \begin{matrix}x_1 = \dfrac{ 1 }{ 2 } & x_2 = -0.2298 & x_3 = -0.8702 \end{matrix} $$(you can use the step-by-step polynomial equation solver to see a detailed explanation of how to solve the equation)
STEP 2:Find the y-intercepts
To find the y-intercepts, substitute $ x = 0 $ into $ \color{blue}{ p(x) = -20x^3-12x^2+7x+2 } $, so:
$$ \text{Y inercept} = p(0) = 2 $$STEP 3:Find the end behavior
The end behavior of a polynomial is the same as the end behavior of a leading term.
$$ \lim_{x \to -\infty} \left( -20x^3-12x^2+7x+2 \right) = \lim_{x \to -\infty} -20x^3 = \color{blue}{ \infty } $$The graph starts in the upper-left corner.
$$ \lim_{x \to \infty} \left( -20x^3-12x^2+7x+2 \right) = \lim_{x \to \infty} -20x^3 = \color{blue}{ -\infty } $$The graph ends in the lower-right corner.
STEP 4:Find the turning points
To determine the turning points, we need to find the first derivative of $ p(x) $:
$$ p^{\prime} (x) = -60x^2-24x+7 $$The x coordinate of the turning points are located at the zeros of the first derivative
$$ p^{\prime} (x) = 0 $$ $$ \begin{matrix}x_1 = 0.1958 & x_2 = -0.5958 \end{matrix} $$(cleck here to see a explanation of how to solve the equation)
To find the y coordinates, substitute the above values into $ p(x) $
$$ \begin{aligned} \text{for } ~ x & = \color{blue}{ 0.1958 } \Rightarrow p\left(0.1958\right) = \color{orangered}{ 2.7604 }\\[1 em] \text{for } ~ x & = \color{blue}{ -0.5958 } \Rightarrow p\left(-0.5958\right) = \color{orangered}{ -2.2004 }\end{aligned} $$So the turning points are:
$$ \begin{matrix} \left( 0.1958, 2.7604 \right) & \left( -0.5958, -2.2004 \right)\end{matrix} $$STEP 5:Find the inflection points
The inflection points are located at zeroes of second derivative. The second derivative is $ p^{\prime \prime} (x) = -120x-24 $.
The zero of second derivative is
$$ \begin{matrix}x = -\dfrac{ 1 }{ 5 } \end{matrix} $$Substitute the x value into $ p(x) $ to get y coordinates
$$ \begin{aligned} \text{for } ~ x & = \color{blue}{ -\frac{ 1 }{ 5 } } \Rightarrow p\left(-\frac{ 1 }{ 5 }\right) = \color{orangered}{ \frac{ 7 }{ 25 } }\end{aligned} $$So the inflection point is:
$$ \begin{matrix} \left( -\dfrac{ 1 }{ 5 }, \dfrac{ 7 }{ 25 } \right)\end{matrix} $$