Question

Given the function g(x) = 6(4)x, Section A is from x = 0 to x = 1 and Section B is from x = 2 to x = 3.

Part A: Find the average rate of change of each section. (4 points)

Part B: How many times greater is the average rate of change of Section B than Section A? Explain why one rate of change is greater than the other. (6 points)

Answer 1

`\bf slope = m = \cfrac{rise}{run} \implies \cfrac{ f(x_2) - f(x_1)}{ x_2 - x_1}\impliedby \begin{array}{llll}average~rate\\of~change\end{array}\\\\[-0.35em]\rule{31em}{0.25pt}`

`\bf g(x)=6(4)^x \qquad \begin{cases}x_1=0\\x_2=1\end{cases}\implies \cfrac{g(1)-g(0)}{1-0}\implies \cfrac{6(4)^1-6(4)^0}{1}\\\\\\24-6\implies \boxed{18}\\\\[-0.35em]\rule{31em}{0.25pt}\\\\g(x)=6(4)^x \qquad \begin{cases}x_1=2\\x_2=3\end{cases}\implies \cfrac{g(3)-g(2)}{3-2}\implies \cfrac{6(4)^3-6(4)^2}{1}\\\\\\384-96\implies \boxed{288}`

how many times greater is B than A? well 288 ÷ 18 = 16, thus 16 times.

6(4)ˣ is an exponential function, the greater the value for x, the larger 4ˣ and the steeper or more straight-up the slope is.

for exponential functions, the jumps area greater than for other functions, because the variable is in the exponent, and the exponent makes the function jump by a factor of the base, the greater the base, the greater the jump.