Sign in to view assessments and invite other educators
Sign in using your existing Kendall Hunt account. If you don’t have one, create an educator account.
Here are a table and a graph that show the number of coffee shops worldwide that a company had in its first 10 years, between 1987 and 1997. The growth in the number of stores was roughly exponential.
Graph of a roughly exponential function, origin O. Horizontal axis, years since 1987, scale 0 to 10, by 1’s Vertical axis, number of coffee shops, scale 0 to 1,500, by 100’s. The function is discrete and has these points: (0 comma 17), (1 comma 33), (2 comma 55), (3 comma 84), (4 comma 116), (5 comma 165), (6 comma 272), (7 comma 425), (8 comma 677), (9 comma 1,015) and (10 comma 1,412).
| year | number of stores |
|---|---|
| 1987 | 17 |
| 1988 | 33 |
| 1989 | 55 |
| 1990 | 84 |
| 1991 | 116 |
| 1992 | 165 |
| 1993 | 272 |
| 1994 | 425 |
| 1995 | 677 |
| 1996 | 1,015 |
| 1997 | 1,412 |
Find the average rate of change for each period of time. Show your reasoning.
Use the graph to support your answers to these questions. How well do the average rates of change describe the growth of the company in:
This graph represents the exponential function, , which models the cost , in dollars, of producing 1 watt of solar energy, from 1977 to 1988, where is years since 1977.
Graph of an exponential function, origin O. Horizontal axis, t (years since 1977), scale 0 to 11, by 1’s. Vertical axis, p (dollars per watt), scale 0 to 80, by 20’s. The function has these points: (0 comma 80), (1 comma 60), (2 comma 45), (3 comma 33 point 75), (4 comma 25 point 3), (5 comma 18 point 98), (6 comma 14 point 2), (7 comma 10 point 7), (8 comma 8), (9 comma 6), (10 comma 4 point 5) and (11 comma 3 point 8).