use the leading coefficient test to determine the end behavior of the graph of the given polynomial function. f(x)=8x^7+2x^5+3x^2+1 Your solution’s ready to go! Enhanced with AI, our expert help has broken down your problem into an easy-to-learn solution you can count on.

Use the leading coefficient test determine the end behavior of the polynomial function Here are the rules for determining end behavior on all polynomial functions: Find the leading term, which is the term with the largest exponent. 1. Is the leading term's coefficient positive? Then it goes up one the right end. 2.

Sketch the graph of the function by applying the Leading Coefficient Test, finding the real zeros of the polynomial, plotting sufficient solution points, and drawing a continuous curve through the points. f(t) = (2- 21+13) (a) Apply the Leading Coefficient Test The graph of the function rises to the left and rises to the right The graph of the function rises to the left and falls to the right.

Use the given function to complete parts a) through e) below. f(x)= - 4(x - 2)2 (2-1) a) Use the Leading Coefficient Test to determine the graph's end behavior. The graph of f(x) falls left and rises right. The graph of f(x) rises left and falls right. The graph of f(x) rises left and rises right. The graph of f(x) falls left and falls right.

Question: Sketch the graph of the function by applying the Leading Coefficient Test, finding the real zeros of the polynomial, plotting sufficient solution points, and drawing a continuous curve through the points.f(x)=3x3-9x2+6x(a) Apply the Leading Coefficient Test.The graph of the function rises to the left and rises to the right.The graph of the function rises to

Use the Leading Coefficient Test to determine the behavior of the polynomial function as x moves without bound to the left and to the right. The behavior depends on the sign of the leading coefficient, and whether the function is even or odd. First, determine the degree of the polynomial function. This determines whether the function is even or ...

Use the Leading Coefficient Test to determine the end behavior of the polynomial. h(x) = -x6 + 7x² + 1 The graph of the polynomial function Submit Answer -Select- --- on the left and ---Select--- ♥ on the right. -Select- rises falls

A herd of moose is introduced to a wildlife refuge. The number of moose, N(U). after t years is described by the polynomial function (t) = - 171 +140. Use the Leading Coefficient Test to determine the graph's end behavior. What does this mean about what will eventually happen to the moose population?

Sketching the Graph of a Polynomial Function In Exercises 69-82, sketch the graph of the function by (a) applying the Leading Coefficient Test, (b) finding the real zeros of the polynomial, (c) plotting sufficient solution points, and (d) drawing a continuous curve through the points. 69. f (t) = 4 1 (t 2 − 2 t + 15) 70. g (x) = − x 2 + 10 ...

Sketch the graph of the function by applying the Leading Coefficient Test, finding the real zeros of the polynomial, plotting sufficient solution points, and drawing a continuous curve through the points. . (ə) Apply the Leading Coefficient Test. The graph of …