| Customer # | Order Size (Quantity) | Total Cost of Order |
| 10211 | 28 | 1631 |
| 10212 | 31 | 1923 |
| 10213 | 43 | 2070 |
| 10214 | 47 | 2392 |
| 10215 | 32 | 1886 |
| 10216 | 43 | 2307 |
| 10217 | 25 | 1486 |
| 10218 | 46 | 2448 |
| 10219 | 41 | 2210 |
| 10220 | 48 | 2401 |
| 10221 | 29 | 1860 |
| 10222 | 32 | 1786 |
| 10223 | 49 | 2485 |
| 10224 | 44 | 2203 |
| 10225 | 33 | 1855 |
| 10226 | 46 | 2380 |
| 10227 | 42 | 2102 |
| 10228 | 31 | 1683 |
| 10229 | 30 | 1706 |
| 10230 | 35 | 1955 |
| 10231 | 34 | 1992 |
| 10232 | 33 | 1926 |
| 10233 | 27 | 1852 |
| 10234 | 32 | 1807 |
| 10235 | 31 | 1880 |
| 10236 | 42 | 2134 |
| 10237 | 39 | 1979 |
| 10238 | 36 | 1882 |
Busstat 208
Spring, 2020
Regression Modeling Assignment
A company would like to estimate its total cost equation using customer records. The company has randomly sampled 28 customer records. Each customer record contains a Customer #, the Order Size, and the Total Cost of the Order. The analyst remembers from accounting and economics classes taken in college that
TOTAL COST = Fixed Costs + Variable Cost per Unit *Order Size.
The analysis sees that this is a linear relationship where the TOTAL COST depends on the Fixed Costs, which do not depend on order size, and a variable cost per unit, which is multiplied by the Order Size. The analysis decides to use simple linear regression to estimate the firm’s Total Cost function. Use the data file, Estimating a Total Cost Regression Model.xlsx to answer the following questions:
I just need help with D, E, F, and G! THANK YOU!

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Customer # Order Size (Quantity) Total Cost of Order 10211 28 1631 10212 31 1923 10213...