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Consider the data given in Activity 3 once again. Augment the data by the dummy variable cooling tower as given in Table 6. Build a
- Consider the data given in Activity 3 once again. Augment the data by the dummy variable "cooling tower" as given in Table 6.
- Build a multiple regression model to predict ln (C) by taking S and N or their natural logarithms, as well as CT, as the independent variables. Make sure to check for multicollinearity.
- Use residual analysis and R2 to check your model.
- State which variables are important in predicting the cost of constructing an LWR plant.
- State a prediction equation that can be used to predict ln(C).
- Does adding CT improve R2? If so, by what amount?Table 6
Cooling Tower Data in Constructing Light Water Reactors
Plant | CT |
1 | 0 |
2 | 1 |
3 | 1 |
4 | 1 |
5 | 1 |
6 | 1 |
7 | 0 |
8 | 0 |
9 | 0 |
10 | 1 |
11 | 0 |
12 | 0 |
13 | 1 |
14 | 0 |
15 | 0 |
16 | 0 |
17 | 0 |
18 | 1 |
19 | 0 |
20 | 0 |
21 | 1 |
22 | 0 |
23 | 1 |
24 | 0 |
25 | 1 |
26 | 1 |
27 | 0 |
28 | 0 |
29 | 1 |
30 | 1 |
31 | 0 |
32 | 1 |
2. Consider the data in Table 5 once more.
- Evaluate the correlation between the two scores and state if there seems to be any association between the two.
- Find the probability of upgrading for each division of the sample by the Bayes' theorem.
- Find the probability of upgrading for each division of the sample by the nave version of the Bayes' theorem.
- Compare your results in parts b and c and explain the difference or indifference based on observed probabilities.
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Multiple Time Scale Dynamics
Authors: Christian Kuehn
1st Edition
3319123165, 9783319123165
