Compare the estimated average rate of change of the graphed quadratic function over the interval [2,6] to the average rate of change of the exponential function y=34(2)x over the same interval. (1 point) Responses The estimated average rate of change of the exponential function is 0.16 greater than the estimated average rate of change of the quadratic function over the interval [2,6] . The estimated average rate of change of the exponential function is 0.16 greater than the estimated average rate of change of the quadratic function over the interval left bracket 2 comma 6 right bracket. The estimated average rate of change of the quadratic function is 7.25 greater than the estimated average rate of change of the exponential function over the interval [2,6] . The estimated average rate of change of the quadratic function is 7.25 greater than the estimated average rate of change of the exponential function over the interval left bracket 2 comma 6 right bracket. The estimated average rate of change of the exponential function is 7.25 greater than the estimated average rate of change of the quadratic function over the interval [2,6] . The estimated average rate of change of the exponential function is 7.25 greater than the estimated average rate of change of the quadratic function over the interval left bracket 2 comma 6 right bracket. The estimated average rate of change of the quadratic function is 0.16 greater than the estimated average rate of change of the exponential functi
The estimated average rate of change of the quadratic function over the interval [2,6] would depend on the specific function given. Without that information, we cannot determine the comparison between the average rate of change of the quadratic function and the exponential function y = 34(2)^x over the same interval.
