Question: The accompanying data file contains 19 observations with two variables, x 1 and x 2 . Click here for the Excel Data File x1 x2
The accompanying data file contains 19 observations with two variables,x1andx2.
Click here for the Excel Data File
| x1 | x2 |
| 2.53 | 20917.5 |
| 1.27 | 32659.5 |
| 2.36 | 2030.5 |
| 0.91 | 64787.5 |
| 2.24 | 596.0 |
| 1.93 | 1997.5 |
| 0.04 | 10217.5 |
| 1.25 | 46029.5 |
| 2.01 | 2494.0 |
| 0.88 | 58083.0 |
| 0.49 | 6233.5 |
| 0.73 | 35439.5 |
| 0.76 | 2161.0 |
| 0.34 | 8555.5 |
| 2.46 | 3006.5 |
| 0.96 | 4309.0 |
| 0.85 | 3165.0 |
| 0.19 | 13736.0 |
| 0.74 | 156813.0 |
a.Using the original values, compute the Euclidean distance for all possible pairs of the first three observations.(Round intermediate calculations to at least 4 decimal places and your final answers to 2 decimal places.)
b.Use the minmax transformation to normalize the values, and then compute the Euclidean distance for all possible pairs of the first three observations.(Round intermediate calculations to at least 4 decimal places and your final answers to 2 decimal places.)
c-1.Using the original values, compute the Manhattan distance values for all possible pairs of the first three observations.(Round your final answers to 2 decimal places.)
c-2.Using the min-max normalized values, compute the Manhattan distance for all possible pairs of the first three observations.(Round intermediate calculations to at least 4 decimal places and your final answers to 2 decimal places.)
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