karush said:$$y=ax^3+bx^2+cx+d$$
Find the cubic eq whose graph has horz tangent at the points$ (-2,6)$ and $ (2,0)$
$$y'=3a{x}^{2}+2bx+c$$
karush said:Isn't $d=3$
Of which we only need a, b, c
karush said:Then $c=-\frac{9}{4}$
karush said:So we have b left
So then $$f'(-2)=f'(2)=0$$
Is next?
karush said:$y=\frac{3}{16}{x}^{3}-\frac{9}{4}x+3$$
I hope
A cubic function is a mathematical function of the form y = ax^3 + bx^2 + cx + d, where a, b, c, and d are constants and x is the independent variable. It is called a cubic function because the highest degree of the variable x is 3.
To derive a cubic function, you must follow the steps of differentiation, where you take the derivative of each term in the function. This involves using the power rule, product rule, and chain rule. The resulting function will be the derivative of the original cubic function.
The purpose of deriving a cubic function is to find the slope of the function at any given point. This can be useful in calculating maximum and minimum values, finding the rate of change, and solving optimization problems.
The key features of a cubic function include its degree, leading coefficient, axis of symmetry, vertex, and asymptotes. The degree and leading coefficient determine the shape and direction of the function, while the axis of symmetry and vertex indicate the location of the function's maximum or minimum point. Asymptotes are the lines that the function approaches but never touches.
Yes, a cubic function can have up to three solutions, depending on the values of its constants and the discriminant. If the discriminant is positive, the function will have three distinct real solutions. If the discriminant is zero, the function will have one real solution. If the discriminant is negative, the function will have three distinct complex solutions.