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Data Quarter Year 1 Year 2 Year 3 1 4 6 7 2 2 3 6 3 3 5 6 4 5 7 8 HELP
Data
Quarter | Year 1 | Year 2 | Year 3 |
1 | 4 | 6 | 7 |
2 | 2 | 3 | 6 |
3 | 3 | 5 | 6 |
4 | 5 | 7 | 8 |
HELP
please answer b-e thank you
data e (b) Use a multiple regression model with dummy variables as follows to develop an equation to account for seasonal effects in the data. Qtr1 = 1 if Quarter 1, 0 otherwise; Qtr2 = 1 if Quarter 2,0 otherwise; Qtr3 = 1 if Quarter 3, 0 otherwise. If required, round your answers to three decimal places. For subtractive or negative numbers use a minus sign even if there is a + sign before the blank. (Example: -300) If the constant is "1" it must be entered in the box. Do not round intermediate calculation. Value = -8.667 8+ 3 qtr1 + 4 qtr2 + -2 Qtr3 en termes (c) Compute the quarterly forecasts for next year based on the model you developed in part (b). If required, round your answers to three decimal places. Do not round intermediate calculation. Quarter 1 forecast 5.667 Quarter 2 forecast 4.667 Quarter 3 forecast 6.667 Quarter 4 forecast 8.667 (d) Use a multiple regression model to develop an equation to account for trend and seasonal effects in the data. Use the dummy variables you developed in part (b) to capture seasonal effects and create a variable t such that t = 1 for Quarter 1 in Year 1, t = 2 for Quarter 2 in Year 1,... t = 12 for Quarter 4 in Year 3. If required, round your answers to three decimal places. For subtractive or negative numbers use a minus sign even if there is a + sign before the blank. (Example: -300) Value = 3.417 + - 1.031 qtr1 + -2.688 Qtr2 + -1.344 Qtr3 + .656 + (e) Compute the quarterly forecasts for next year based on the model you developed in part (d). Do not round your interim computations and round your final answer to three decimal places. Quarter 1 forecast 5.33 Quarter 2 forecast Quarter 3 forecast Quarter 4 forecast data e (b) Use a multiple regression model with dummy variables as follows to develop an equation to account for seasonal effects in the data. Qtr1 = 1 if Quarter 1, 0 otherwise; Qtr2 = 1 if Quarter 2,0 otherwise; Qtr3 = 1 if Quarter 3, 0 otherwise. If required, round your answers to three decimal places. For subtractive or negative numbers use a minus sign even if there is a + sign before the blank. (Example: -300) If the constant is "1" it must be entered in the box. Do not round intermediate calculation. Value = -8.667 8+ 3 qtr1 + 4 qtr2 + -2 Qtr3 en termes (c) Compute the quarterly forecasts for next year based on the model you developed in part (b). If required, round your answers to three decimal places. Do not round intermediate calculation. Quarter 1 forecast 5.667 Quarter 2 forecast 4.667 Quarter 3 forecast 6.667 Quarter 4 forecast 8.667 (d) Use a multiple regression model to develop an equation to account for trend and seasonal effects in the data. Use the dummy variables you developed in part (b) to capture seasonal effects and create a variable t such that t = 1 for Quarter 1 in Year 1, t = 2 for Quarter 2 in Year 1,... t = 12 for Quarter 4 in Year 3. If required, round your answers to three decimal places. For subtractive or negative numbers use a minus sign even if there is a + sign before the blank. (Example: -300) Value = 3.417 + - 1.031 qtr1 + -2.688 Qtr2 + -1.344 Qtr3 + .656 + (e) Compute the quarterly forecasts for next year based on the model you developed in part (d). Do not round your interim computations and round your final answer to three decimal places. Quarter 1 forecast 5.33 Quarter 2 forecast Quarter 3 forecast Quarter 4 forecastStep by Step Solution
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