Unusual Observations for Nong do CO2 trong gian bao
Nong do CO2 trong gian bao | Fit | SE Fit | Residual | St Resid | |
1 | 370.000 | 320.000 | 14.489 | 50.000 | 2.44 R |
2 | 358.000 | 314.667 | 14.489 | 43.333 | 2.11 R |
26 | 255.000 | 320.000 | 14.489 | -65.000 | -3.17 R |
27 | 243.000 | 314.667 | 14.489 | -71.667 | -3.50 R |
28 | 254.000 | 318.000 | 14.489 | -64.000 | -3.12 R |
29 | 281.000 | 326.667 | 14.489 | -45.667 | -2.23 R |
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Source | DF | Seq SS | Adj SS | Adj MS | F | P |
N | 4 | 96314 | 96314 | 24079 | 0.64 | 0.639 |
K | 4 | 112020 | 112020 | 28005 | 0.74 | 0.569 |
N*K | 16 | 331648 | 331648 | 20728 | 0.55 | 0.906 |
Error | 50 | 1889994 | 1889994 | 37800 | ||
Total | 74 | 2429977 |
R denotes an observation with a large standardized residual. Analysis of Variance for DMKK, using Adjusted SS for Tests
S = 194.422 R-Sq = 22.22% R-Sq(adj) = 0.00%
Unusual Observations for DMKK
DMKK | Fit | SE Fit | Residual | St Resid | |
5 | 1733.17 | 1366.06 | 112.25 | 367.11 | 2.31 R |
9 | 1697.00 | 1353.22 | 112.25 | 343.78 | 2.17 R |
39 | 1679.00 | 1329.67 | 112.25 | 349.33 | 2.20 R |
R denotes an observation with a large standardized residual.
Analysis of Variance for Dai canh du tru (cm), using Adjusted SS for Tests
DF | Seq SS | Adj SS | Adj MS | F | P | |
N | 4 | 72.80 | 72.80 | 18.20 | 2.50 | 0.044 |
K | 4 | 61.44 | 61.44 | 15.36 | 2.11 | 0.036 |
N*K | 16 | 251.52 | 251.52 | 15.72 | 2.16 | 0.046 |
Error | 50 | 763.90 | 763.90 | 7.28 | ||
Total | 74 | 1131.17 |
S = 3.90871 R-Sq = 32.47% R-Sq(adj) = 0.05%
Unusual Observations for Dai canh du tru (cm) Dai canh du
Obs tru (cm) Fit SE Fit Residual St Resid
34.2851 43.3048 2.2567 -9.0197 | -2.83 R | |
70 | 56.4464 43.3048 2.2567 13.1416 | 4.12 R |
73 | 46.1218 39.4595 2.2567 6.6624 | 2.09 R |
R denotes an observation with a large standardized residual.
Analysis of Variance for Toc do ra dot, using Adjusted SS for Tests Source DF Seq SS Adj SS Adj MS F P
4 | 1.0413 | 1.0413 | 0.2603 0.67 | 0.616 | |
K | 4 | 2.1747 | 2.1747 | 0.5437 1.40 | 0.248 |
N*K | 16 | 1.9580 | 1.9580 | 0.1224 0.31 | 0.993 |
Error | 50 | 19.4400 | 19.4400 | 0.3888 | |
Total | 74 | 24.6139 |
S = 0.623538 R-Sq = 21.02% R-Sq(adj) = 0.00%
Unusual Observations for Toc do ra dot
Fit SE Fit | Residual St | Resid | |
44 4.98950 | 6.05686 0.36000 | -1.06736 | -2.10 R |
69 7.57261 | 6.05686 0.36000 | 1.51575 | 2.98 R |
70 7.96903 | 6.14272 0.36000 | 1.82631 | 3.59 R |
74 7.57261 | 6.36739 0.36000 | 1.20522 | 2.37 R |
75 7.86903 | 6.28557 0.36000 | 1.58347 | 3.11 R |
R denotes an observation with a large standardized residual.
Analysis of Variance for Canh kho/cay (canh), using Adjusted SS for Tests
DF | Seq SS | Adj SS | Adj MS | F | P | |
N | 4 | 9.448 | 9.448 | 2.487 | 2.27 | 0.045 |
K | 4 | 9.732 | 9.732 | 2.433 | 2.22 | 0.043 |
N*K | 16 | 40.672 | 40.672 | 2.542 | 2.32 | 0.047 |
Error | 50 | 149.782 | 149.782 | 1.096 | ||
Total | 74 | 206.916 |
S = 1.73079 R-Sq = 27.61% R-Sq(adj) = 0.00%
Unusual Observations for Canh kho/cay (canh)
Canh kho/cay
Obs (canh) Fit SE Fit Residual St Resid 54 9.1097 12.1462 0.9993 -3.0364 -2.15 R
75 13.0315 9.5368 0.9993 3.4947 2.47 R
Source | DF | Seq SS | Adj SS | Adj MS | F | P |
N | 4 | 0.8223 | 0.8223 | 0.2056 | 0.46 | 0.762 |
K | 4 | 3.1668 | 3.1668 | 0.7917 | 1.79 | 0.146 |
N*K | 16 | 4.6774 | 4.6774 | 0.2923 | 0.66 | 0.818 |
Error | 50 | 22.1603 | 22.1603 | 0.4432 | ||
Total | 74 | 30.8269 |
R denotes an observation with a large standardized residual. Analysis of Variance for So dot/canh, using Adjusted SS for Tests
S = 0.665737 R-Sq = 28.11% R-Sq(adj) = 0.00%
Unusual Observations for So dot/canh
dot/canh | Fit | SE Fit Residual St | Resid | |
25 | 8.0455 | 9.1769 | 0.3844 -1.1314 | -2.08 R |
49 | 7.8222 | 9.0370 | 0.3844 -1.2148 | -2.23 R |
74 | 10.9070 | 9.0370 | 0.3844 1.8699 | 3.44 R |
75 | 10.8320 | 9.1769 | 0.3844 1.6551 | 3.04 R |
R denotes an observation with a large standardized residual.
Analysis of Variance for Chum qua (chum), using Adjusted SS for Tests
DF | Seq SS | Adj SS | Adj MS | F | P | |
N | 4 | 1114 | 1114 | 278 | 0.13 | 0.970 |
K | 4 | 2411 | 2411 | 603 | 0.28 | 0.887 |
N*K | 16 | 3035 | 3035 | 190 | 0.09 | 1.000 |
Error | 50 | 106265 | 106265 | 2125 | ||
Total | 74 | 112825 |
S = 46.1009 R-Sq = 5.81% R-Sq(adj) = 0.00%
Unusual Observations for Chum qua (chum) Chum qua
Obs (chum) Fit SE Fit Residual St Resid 49 365.475 450.789 26.616 -85.314 -2.27 R
58 522.863 435.666 26.616 87.198 2.32 R
67 499.447 422.691 26.616 76.756 2.04 R
74 563.000 450.789 26.616 112.211 2.98 R
R denotes an observation with a large standardized residual.
Analysis of Variance for P100 qua tuoi (g), using Adjusted SS for Tests
DF | Seq SS | Adj SS | Adj MS | F | P | |
N | 4 | 1362.1 | 1362.1 | 340.5 | 1.54 | 0.206 |
K | 4 | 1076.4 | 1076.4 | 269.1 | 1.21 | 0.317 |
N*K | 16 | 383.5 | 383.5 | 24.0 | 0.11 | 1.000 |
Error | 50 | 11089.8 | 11089.8 | 221.8 | ||
Total | 74 | 13911.8 |
S = 14.8928 R-Sq = 20.28% R-Sq(adj) = 0.00%
Unusual Observations for P100 qua tuoi (g) P100 qua
Obs tuoi (g) Fit SE Fit Residual St Resid 31 149.089 121.498 8.598 27.591 2.27 R
R denotes an observation with a large standardized residual. Analysis of Variance for Ty le tuoi/nha, using Adjusted SS for Tests
DF | Seq SS | Adj SS | Adj MS | F | P | |
N | 4 | 0.2340 | 0.2340 | 0.0585 | 0.35 | 0.840 |
K | 4 | 0.1241 | 0.1241 | 0.0310 | 0.19 | 0.944 |
N*K | 16 | 0.2040 | 0.2040 | 0.0127 | 0.08 | 1.000 |
Error | 50 | 8.2739 | 8.2739 | 0.1655 | ||
Total | 74 | 8.8360 |
S = 0.406789 R-Sq = 6.36% R-Sq(adj) = 0.00%
Unusual Observations for Ty le tuoi/nha
Residual | St | Resid | ||
24 4.70009 4.02854 0.23486 | 0.67155 | 2.02 | R | |
28 3.24204 4.13687 0.23486 | -0.89483 | -2.69 | R | |
50 4.93042 4.08723 0.23486 | 0.84319 | 2.54 | R | |
71 3.23238 4.07905 0.23486 | -0.84667 | -2.55 | R | |
74 3.29571 4.02854 0.23486 | -0.73283 | -2.21 | R | |
75 3.22157 4.08723 0.23486 | -0.86566 | -2.61 | R |
R denotes an observation with a large standardized residual.
Analysis of Variance for Nang suat tuoi (tan), using Adjusted SS for Tests
DF | Seq SS | Adj SS | Adj MS | F | P | |
N | 4 | 8.014 | 8.014 | 2.003 | 2.85 | 0.049 |
K | 4 | 8.088 | 8.088 | 2.022 | 2.77 | 0.047 |
N*K | 16 | 25.154 | 25.154 | 1.572 | 2.23 | 0.041 |
Error | 50 | 137.645 | 137.645 | 0.703 | ||
Total | 74 | 165.582 |
S = 1.65918 R-Sq = 16.87% R-Sq(adj) = 0.00%
Obs | tuoi (tan) Fit | SE Fit Residual St | Resid |
18 | 11.5653 14.4346 | 0.9579 -2.8693 | -2.12 R |
50 | 18.6431 15.1999 | 0.9579 3.4432 | 2.54 R |
58 | 16.9852 14.0834 | 0.9579 2.9018 | 2.14 R |
Unusual Observations for Nang suat tuoi (tan) Nang suat
R denotes an observation with a large standardized residual.
Analysis of Variance for Nang suat nhan (tan), using Adjusted SS for Tests
DF | Seq SS | Adj SS | Adj MS | F | P | |
N | 4 | 0.7137 | 0.7137 | 0.1784 | 2.36 | 0.041 |
K | 4 | 0.6220 | 0.6220 | 0.1555 | 2.05 | 0.039 |
N*K | 16 | 2.5040 | 2.5040 | 0.1565 | 2.07 | 0.035 |
Error | 50 | 11.7795 | 11.7795 | 0.0756 | ||
Total | 74 | 14.3177 |
S = 0.485377 R-Sq = 17.73% R-Sq(adj) = 0.00%
Unusual Observations for Nang suat nhan (tan)
Nang suat nhan (tan) | Fit | SE Fit | Residual St | Resid | |
5 | 2.34936 | 3.34241 | 0.28023 | -0.99305 | -2.51 R |
58 | 4.12985 | 3.28346 | 0.28023 | 0.84639 | 2.14 R |
71 | 4.25291 | 3.32312 | 0.28023 | 0.92979 | 2.35 R |
R denotes an observation with a large standardized residual.
THI NGHIEM 2. SO LAN VA TI LE BON DAM, LAN VA KALI
—— 4/22/2014 9:09:23 AM ————————————————————
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Descriptive Statistics: pH kcl, % Huu co (dat, Dam tong so , Lan tong so(, ...
CoefVar | ||
pH kcl | 4.39 | |
% Huu co (dat) | 6.26 | |
Dam tong so (dat) | 8.09 | |
Lan tong so(dat) | 4.76 | |
Kali tong so(dat) | 8.18 | |
Lan de tieu(dat) | 6.77 | |
Kali de tieu(dat) | 5.72 | |
Ca 2+(dat) | 2.85 | |
Mg 2+ (dat) | 2.69 | |
CEC(dat) | 4.20 | |
N% (la) | 4.29 | |
P% (la) | 8.08 | |
K% (la) | 6.01 | |
CaO% (la) | 6.14 | |
MgO%(la) | 6.79 | |
Diep luc a | 9.09 | |
Diep luc b | 5.83 | |
Diep luc ts | 7.17 | |
CarotenoiT | 14.47 | |
CDTHN | 21.18 | |
CDQH | 10.94 | |
Nong do CO2 trong gian | b | 6.19 |
DMKK | 11.88 | |
Dai canh du tru (cm) | 3.88 | |
Toc do ra dot/6thang | 3.74 | |
Canh kho/cay(canh) | 7.91 | |
So dot/canh | 4.91 | |
Chum hoa, qua (chum) | 2.94 | |
Ty le tuoi/nha | 3.07 | |
Nang suat tuoi (tan) | 4.79 | |
Nang suat nhan (tan) | 7.09 |
General Linear Model: pH kcl, % Huu co (dat), ... versus Cachbon
Factor Type Levels Values Cachbon fixed 3 C1, C2, C3
Analysis of Variance for pH kcl, using Adjusted SS for Tests
DF | Seq SS | Adj SS | Adj MS | F P | |
Cachbon | 2 | 0.08060 | 0.08060 | 0.04030 | 1.11 0.388 |
Error | 6 | 0.21700 | 0.21700 | 0.03617 | |
Total | 8 | 0.29760 |
S = 0.190175 R-Sq = 27.08% R-Sq(adj) = 2.78%
Analysis of Variance for % Huu co (dat), using Adjusted SS for Tests
Seq SS | Adj SS | Adj MS F P | |
Cachbon 2 | 0.04847 | 0.04847 | 0.02423 0.44 0.663 |
Error 6 | 0.33033 | 0.33033 | 0.05506 |
Total 8 | 0.37880 |
S = 0.234639 R-Sq = 12.79% R-Sq(adj) = 0.00%
Unusual Observations for % Huu co (dat)
% Huu co
Obs (dat) Fit SE Fit Residual St Resid
5 3.96000 3.53333 0.13547 0.42667 2.23 R
R denotes an observation with a large standardized residual.
Analysis of Variance for Dam tong so (dat), using Adjusted SS for Tests
DF | Seq SS Adj SS | Adj MS F P | |
Cachbon | 2 | 0.0017556 0.0017556 | 0.0008778 8.78 0.017 |
Error | 6 | 0.0006000 0.0006000 | 0.0001000 |
Total | 8 | 0.0023556 |
S = 0.01 R-Sq = 74.53% R-Sq(adj) = 66.04%
Unusual Observations for Dam tong so (dat)
Fit | SE Fit | Residual St Resid | |
7 0.210000 | 0.193333 | 0.005774 | 0.016667 2.04 R |
R denotes an observation with a large standardized residual.
Analysis of Variance for Lan tong so(dat), using Adjusted SS for Tests
Seq SS | Adj SS | Adj MS | F P | |
Cachbon 2 | 0.0004667 | 0.0004667 | 0.0002333 | 4.20 0.072 |
Error 6 | 0.0003333 | 0.0003333 | 0.0000556 | |
Total 8 | 0.0008000 |
S = 0.00745356 R-Sq = 58.33% R-Sq(adj) = 44.44%
Analysis of Variance for Kali tong so(dat), using Adjusted SS for Tests
Seq SS | Adj SS | Adj MS | F P | |
Cachbon 2 | 0.0006889 | 0.0006889 | 0.0003444 | 10.33 0.061 |
Error 6 | 0.0002000 | 0.0002000 | 0.0000333 | |
Total 8 | 0.0008889 |
S = 0.00577350 R-Sq = 77.50% R-Sq(adj) = 70.00%
Analysis of Variance for Lan de tieu(dat), using Adjusted SS for Tests
Seq SS | Adj SS | Adj MS F P | |
Cachbon 2 | 1.98527 | 1.98527 | 0.99263 36.02 0.000 |
Error 6 | 0.16533 | 0.16533 | 0.02756 |
Total 8 | 2.15060 |
S = 0.165999 R-Sq = 92.31% R-Sq(adj) = 89.75%
Analysis of Variance for Kali de tieu(dat), using Adjusted SS for Tests
Adj SS | Adj MS F | P | |
Cachbon 2 5.2061 | 5.2061 | 2.6030 14.03 | 0.005 |
Error 6 1.1135 | 1.1135 | 0.1856 | |
Total 8 6.3196 |
S = 0.430800 R-Sq = 82.38% R-Sq(adj) = 76.51%
Analysis of Variance for Ca 2+(dat), using Adjusted SS for Tests
Seq SS | Adj SS | Adj MS | F P | |
Cachbon 2 | 0.041489 | 0.041489 | 0.020744 | 10.73 0.060 |
Error 6 | 0.011600 | 0.011600 | 0.001933 | |
Total 8 | 0.053089 |
S = 0.0439697 R-Sq = 78.15% R-Sq(adj) = 70.87%
Analysis of Variance for Mg 2+ (dat), using Adjusted SS for Tests
Seq SS | Adj SS | Adj MS | F P | |
Cachbon 2 | 0.013956 | 0.013956 | 0.006978 | 3.20 0.113 |
Error 6 | 0.013067 | 0.013067 | 0.002178 | |
Total 8 | 0.027022 |
S = 0.0466667 R-Sq = 51.64% R-Sq(adj) = 35.53%
Unusual Observations for Mg 2+ (dat)
Obs Mg 2+ (dat) Fit SE Fit Residual St Resid
4 2.22000 2.14000 0.02694 0.08000 2.10 R
Source DF Seq SS | Adj SS | Adj MS F | P |
Cachbon 2 2.9102 | 2.9102 | 1.4551 14.57 | 0.065 |
Error 6 0.5991 | 0.5991 | 0.0999 | |
Total 8 3.5093 |
R denotes an observation with a large standardized residual. Analysis of Variance for CEC(dat), using Adjusted SS for Tests
S = 0.315999 R-Sq = 82.93% R-Sq(adj) = 77.24%
Unusual Observations for CEC(dat)
Obs CEC(dat) Fit SE Fit Residual St Resid
9 16.8900 16.3167 0.1824 0.5733 2.22 R
R denotes an observation with a large standardized residual.
Analysis of Variance for N% (la), using Adjusted SS for Tests
Seq SS | Adj SS | Adj MS | F P | |
Cachbon 2 | 0.06355 | 0.06355 | 0.02067 | 4.90 0.045 |
Error 6 | 0.13780 | 0.13780 | 0.01297 | |
Total 8 | 0.17914 |
S = 0.151548 R-Sq = 23.08% R-Sq(adj) = 0.00%
Unusual Observations for N% (la)
Obs N% (la) Fit SE Fit Residual St Resid
7 3.67500 3.42167 0.08750 0.25333 2.05 R
Source DF | Seq SS | Adj SS | Adj MS F | P |
Cachbon 2 | 0.0003556 | 0.0003556 | 0.0001778 1.07 | 0.401 |
Error 6 | 0.0010000 | 0.0010000 | 0.0001667 | |
Total 8 | 0.0013556 |
R denotes an observation with a large standardized residual. Analysis of Variance for P% (la), using Adjusted SS for Tests
S = 0.0129099 R-Sq = 26.23% R-Sq(adj) = 1.64%
Analysis of Variance for K% (la), using Adjusted SS for Tests
Seq SS | Adj SS | Adj MS | F | P | |
Cachbon 2 | 0.090050 | 0.090050 | 0.045025 | 38.87 | 0.000 |
Error 6 | 0.006950 | 0.006950 | 0.009158 | ||
Total 8 | 0.097000 |
S = 0.0340343 R-Sq = 92.84% R-Sq(adj) = 90.45%
Analysis of Variance for CaO% (la), using Adjusted SS for Tests
Seq SS | Adj SS | Adj MS | F P | |
Cachbon 2 | 0.046822 | 0.046822 | 0.023411 | 10.23 0.012 |
Error 6 | 0.013733 | 0.013733 | 0.002289 | |
Total 8 | 0.060556 |
S = 0.0478423 R-Sq = 77.32% R-Sq(adj) = 69.76%
Analysis of Variance for MgO%(la), using Adjusted SS for Tests
Seq SS | Adj SS | Adj MS F | P | |
Cachbon 2 | 0.0033556 | 0.0033556 | 0.0016778 10.79 | 0.010 |
Error 6 | 0.0009333 | 0.0009333 | 0.0001556 | |
Total 8 | 0.0042889 |
S = 0.0124722 R-Sq = 78.24% R-Sq(adj) = 70.98%