Lesson 23: Inference for Bivariate Data
Homework
Solutions
Please note that the steps show rounded numbers, but that the final answers to the problems are calculated without rounding.
| Problem | Part | Solution |
|---|---|---|
| 1 | - | Estimated linear regression equation: \[\hat{Y} = b_0 + b_1X\] True linear regression equation: \[Y = \beta_0 + \beta_1X + \epsilon\] |
| 2 | - | See the wiki for a review of this important concept. |
| 3 | A |  The appropriate graphs to check for a linear relationship are a scatterplot and a residual plot. The scatterplot seems to show a linear relationship and there is no pattern in the residual plot, so we can conclude that there is a linear relationship in the data. |
| 3 | B |  The appropriate graph to check for constant variance is a residual plot. There is no pattern in the residual plot, so we can conclude that there is a constant variance in the data. |
| 3 | C |  The appropriate graph to check for a normal error term is a Q-Q plot of the residuals. The points in the plot are close to the line, so we can conclude that there is a normal error term in the data. |
| 4 | - | \(r = 0.704\) |
| 5 | - | \(\hat{Y} = -29.859 + 37.72X\) |
| 6 | - | \(Y = 49.73\) |
| 7 | - | (22.999, 52.441) We are 95% confident that the slope of the true true linear regression line of Lactic with Taste is between 22.999 and 52.441. |
| 8 | - | \(H_0: \beta_1 = 0\) \(H_a: \beta_1 \neq 0\) |
| 9 | - | \(t = 5.249\) |
| 10 | - | \(\text{P-value} = 0.00001405\) |
| 11 | - | reject the null hypothesis |
| 12 | - | There is sufficient evidence to suggest that the slope of the true linear regression line does not equal zero. We conclude that there is a linear relationship between the concentration of lactic acid in cheese and the quality of its taste. |
| 13 | A |  The appropriate graphs to check for a linear relationship are a scatterplot and a residual plot. The scatterplot does not seem to show a significant linear relationship, so we cannot conclude that there is a linear relationship in the data. |
| 13 | B |  The appropriate graph to check for constant variance is a residual plot. There is no pattern in the residual plot, so we can conclude that there is a constant variance in the data. |
| 13 | C |  The appropriate graph to check for a normal error term is a Q-Q plot of the residuals. The points in the plot are close to the line, so we can conclude that there is a normal error term in the data. |
| 14 | - | \(\hat{Y} = 25,838.626 + -0.034X\) |
| 15 | - | \(Y = 22,401.192\) |
| 16 | - | (-0.073, 0.004) We are 90% confident that the slope of the true true linear regression line of Lactic with Taste is between -0.073 and 0.004. |
| 17 | - | \(H_0: \beta_1 = 0\) \(H_a: \beta_1 \neq 0\) |
| 18 | - | \(t = -1.476\) |
| 19 | - | \(\text{P-value} = 0.144\) |
| 20 | - | fail to reject the null hypothesis |
| 21 | - | There is insufficient evidence to suggest that the slope of the true linear regression line does not equal zero. We conclude that there is not a linear relationship between the mileage of a Prius listed for sale and its price. |
| 22 | - | \(r = -0.181\) |
| 23 | - | \(\hat{Y} = 62.825 + -18.236X\) |
| 24 | - | \(Y = 49.148\) |
| 25 | - | (-41.855, 5.383) We are 95% confident that the slope of the true true linear regression line of Lead with BRS is between -41.855 and 5.383. |
| 26 | - | \(H_0: \beta_1 = 0\) \(H_a: \beta_1 \neq 0\) |
| 27 | - | \(t = -1.54\) |
| 28 | - | \(\text{P-value} = 0.128\) |
| 29 | - | fail to reject the null hypothesis |
| 30 | - | There is insufficient evidence to suggest that the slope of the true linear regression line does not equal zero. We conclude that there is not a linear relationship between a child’s level of lead exposure and his or her behavioral rating. |
| 31 | - | d. The actual Y value was 4.5 units higher than the predicted Y value |