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An Academic Advisor Wants to Predict the Typical Starting Salary $\hat { \beta } _ { 0 } = - 92040 \hat { \beta } 1 = 228 \mathrm {~s} = 3213 \mathrm { df } = 23 \quad t = 6.67$

Question 8

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An academic advisor wants to predict the typical starting salary of a graduate at a top business school using the GMAT score of the school as a predictor variable. A simple linear regression of SALARY versus GMAT using 25 data points is shown below.
$\hat { \beta } _ { 0 } = - 92040 \hat { \beta } 1 = 228 \mathrm {~s} = 3213 \mathrm { df } = 23 \quad t = 6.67$
Set up the null and alternative hypotheses for testing whether a linear relationship exists between SALARY and GMAT.

A) $H _ { 0 } : \beta _ { 1 } = 0$ vs. $H _ { \mathrm { a } } : \beta _ { 1 } > 0$
B) $H _ { 0 } : \beta 1 = 0$ vs. $H _ { \mathrm { a } } : \beta 1 \neq 0$
C) $H _ { 0 } : \hat { \beta } 1 = 228$ vs. $H _ { \mathrm { a } } : \hat { \beta } _ { 1 } > 228$
D) $H _ { 0 } : \beta _ { 1 } > 0$ vs. $\mathrm { H } _ { \mathrm { a } } : \beta _ { 1 } < 0$

An Academic Advisor Wants to Predict the Typical Starting Salary β^0=−92040β^1=228 s=3213df=23t=6.67\hat { \beta } _ { 0 } = - 92040 \hat { \beta } 1 = 228 \mathrm {~s} = 3213 \mathrm { df } = 23 \quad t = 6.67β^​0​=−92040β^​1=228 s=3213df=23t=6.67

Multiple Choice

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An Academic Advisor Wants to Predict the Typical Starting Salary $\hat { \beta } _ { 0 } = - 92040 \hat { \beta } 1 = 228 \mathrm {~s} = 3213 \mathrm { df } = 23 \quad t = 6.67$

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