| College | Athlete | Cheated | 1. Pivot Table | Nationwide Average | % Cheated |
| Insert pivot table in this cell - F2 | Business | 56% |
| Nonbusiness | 47% |
| 2. Bar Chart |
| Bar chart starts in this cell - F20 |
| Insert the appropriate numbers into the hypothesis testing calculations below based upon your pivot table results. Note the results. |
| 3-6 Hypothesis Test |
| Business Nonathlete vs. National Average | Business Athlete vs. National Average | Business vs. National Average | Nonbusiness vs. National Average |
| Proportion | Proportion | Proportion | Proportion |
| Sample Size (n)
=count(range) | Sample Size (n)
=count(range) | Sample Size (n)
=count(range) | Sample Size (n)
=count(range) |
| Response of Interest (ROI) | Cheated | Response of Interest (ROI) | Cheated | Response of Interest (ROI) | Cheated | Response of Interest (ROI) | Cheated |
| Count for Response (CFR)
=COUNTIF(range,ROI) | Count for Response (CFR)
=COUNTIF(range,ROI) | Count for Response (CFR)
=COUNTIF(range,ROI) | Count for Response (CFR)
=COUNTIF(range,ROI) |
| Sample Proportion (pbar)
=CFR/n | Sample Proportion (pbar)
=CFR/n | Sample Proportion (pbar)
=CFR/n | Sample Proportion (pbar)
=CFR/n |
| Highlight your H0 and Ha | Two Tail H0: p = po
Ha: p ≠ po
Left Tail H0: p ≥ po
Ha: p < po
Right Tail H0: p ≤ po
Ha: p > po | Highlight your H0 and Ha | Two Tail H0: p = po
Ha: p ≠ po
Left Tail H0: p ≥ po
Ha: p < po
Right Tail H0: p ≤ po
Ha: p > po | Highlight your H0 and Ha | Two Tail H0: p = po
Ha: p ≠ po
Left Tail H0: p ≥ po
Ha: p < po
Right Tail H0: p ≤ po
Ha: p > po | Highlight your H0 and Ha | Two Tail H0: p = po
Ha: p ≠ po
Left Tail H0: p ≥ po
Ha: p < po
Right Tail H0: p ≤ po
Ha: p > po |
| Hypothesized | 0.56 | Hypothesized | 0.56 | Hypothesized | 0.56 | Hypothesized | 0.47 |
| Confidence Coefficient (Coe) | 0.95 | Confidence Coefficient (Coe) | 0.95 | Confidence Coefficient (Coe) | 0.95 | Confidence Coefficient (Coe) | 0.95 |
| Level of Significance (alpha)
=1-Coe | 0.05 | Level of Significance (alpha)
=1-Coe | 0.05 | Level of Significance (alpha)
=1-Coe | 0.05 | Level of Significance (alpha)
=1-Coe | 0.05 |
| Standard Error (StdError)
=SQRT(Hypo*(1-Hypo)/n) | ERROR:#DIV/0! | Standard Error (StdError)
=SQRT(Hypo*(1-Hypo)/n) | ERROR:#DIV/0! | Standard Error (StdError)
=SQRT(Hypo*(1-Hypo)/n) | ERROR:#DIV/0! | Standard Error (StdError)
=SQRT(Hypo*(1-Hypo)/n) | ERROR:#DIV/0! |
| Test Statistic (Z-stat)
=(pbar-Hypo)/StdError | ERROR:#DIV/0! | Test Statistic (Z-stat)
=(pbar-Hypo)/StdError | ERROR:#DIV/0! | Test Statistic (Z-stat)
=(pbar-Hypo)/StdError | ERROR:#DIV/0! | Test Statistic (Z-stat)
=(pbar-Hypo)/StdError | ERROR:#DIV/0! |
| Accept or Reject: Left Tail | ERROR:#DIV/0! | Accept or Reject: Left Tail | ERROR:#DIV/0! | Accept or Reject: Left Tail | ERROR:#DIV/0! | Accept or Reject: Left Tail | ERROR:#DIV/0! |
| Accept or Reject: Right Tail | ERROR:#DIV/0! | Accept or Reject: Right Tail | ERROR:#DIV/0! | Accept or Reject: Right Tail | ERROR:#DIV/0! | Accept or Reject: Right Tail | ERROR:#DIV/0! |
| Accept or Reject: Two Tail | ERROR:#DIV/0! | Accept or Reject: Two Tail | ERROR:#DIV/0! | Accept or Reject: Two Tail | ERROR:#DIV/0! | Accept or Reject: Two Tail | ERROR:#DIV/0! |
| p-value (Lower Tail)
=NORM.S.DIST(z,TRUE) | ERROR:#DIV/0! | p-value (Lower Tail)
=NORM.S.DIST(z,TRUE) | ERROR:#DIV/0! | p-value (Lower Tail)
=NORM.S.DIST(z,TRUE) | ERROR:#DIV/0! | p-value (Lower Tail)
=NORM.S.DIST(z,TRUE) | ERROR:#DIV/0! |
| p-value (Upper Tail)
=1-LowerTail | ERROR:#DIV/0! | p-value (Upper Tail)
=1-LowerTail | ERROR:#DIV/0! | p-value (Upper Tail)
=1-LowerTail | ERROR:#DIV/0! | p-value (Upper Tail)
=1-LowerTail | ERROR:#DIV/0! |
| p-value (Two Tail)
=2*MIN(LowerTail,UpperTail) | ERROR:#DIV/0! | p-value (Two Tail)
=2*MIN(LowerTail,UpperTail) | ERROR:#DIV/0! | p-value (Two Tail)
=2*MIN(LowerTail,UpperTail) | ERROR:#DIV/0! | p-value (Two Tail)
=2*MIN(LowerTail,UpperTail) | ERROR:#DIV/0! |
| Accept or Reject p-value: Left Tail | ERROR:#DIV/0! | Accept or Reject p-value: Left Tail | ERROR:#DIV/0! | Accept or Reject p-value: Left Tail | ERROR:#DIV/0! | Accept or Reject p-value: Left Tail | ERROR:#DIV/0! |
| Accept or Reject p-value: Right Tail | ERROR:#DIV/0! | Accept or Reject p-value: Right Tail | ERROR:#DIV/0! | Accept or Reject p-value: Right Tail | ERROR:#DIV/0! | Accept or Reject p-value: Right Tail | ERROR:#DIV/0! |
| Accept or Reject p-value: Two Tail | ERROR:#DIV/0! | Accept or Reject p-value: Two Tail | ERROR:#DIV/0! | Accept or Reject p-value: Two Tail | ERROR:#DIV/0! | Accept or Reject p-value: Two Tail | ERROR:#DIV/0! |
| p-Lower Limit
=pbar-CONFIDENCE.NORM(alpha,StdError,n) | ERROR:#DIV/0! | p-Lower Limit
=pbar-CONFIDENCE.NORM(alpha,StdError,n) | ERROR:#DIV/0! | p-Lower Limit
=pbar-CONFIDENCE.NORM(alpha,StdError,n) | ERROR:#DIV/0! | p-Lower Limit
=pbar-CONFIDENCE.NORM(alpha,StdError,n) | ERROR:#DIV/0! |
| p-Upper Limit
=pbar+CONFIDENCE.NORM(alpha,StdError,n) | ERROR:#DIV/0! | p-Upper Limit
=pbar+CONFIDENCE.NORM(alpha,StdError,n) | ERROR:#DIV/0! | p-Upper Limit
=pbar+CONFIDENCE.NORM(alpha,StdError,n) | ERROR:#DIV/0! | p-Upper Limit
=pbar+CONFIDENCE.NORM(alpha,StdError,n) | ERROR:#DIV/0! |