Theory and Modern Applications
From: A Jacobi operational matrix for solving a fuzzy linear fractional differential equation
(α,β) | (0,0) | (0.5,0) | (0,0.5) | (0.5,0.5) | (0,0) | (0.5,0) | (0,0.5) | (0.5,0.5) |
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r |
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0 | 5.4570e−6 | 1.1057e−4 | 7.6066e−5 | 1.0236e−4 | 5.5968e−6 | 1.1264e−4 | 7.7085e−5 | 1.0411e−4 |
0.1 | 4.9043e−6 | 9.9417e−5 | 6.8409e−5 | 9.2044e−5 | 5.0441e−6 | 1.0148e−4 | 6.9428e−5 | 9.3793e−5 |
0.2 | 4.3516e−6 | 8.8256e−5 | 6.0751e−5 | 8.1720e−5 | 4.4914e−6 | 9.0325e−5 | 6.1770e−5 | 8.3469e−5 |
0.3 | 3.7989e−6 | 7.7094e−5 | 5.3093e−5 | 7.1396e−5 | 3.9387e−6 | 7.9164e−5 | 5.4112e−5 | 7.3144e−5 |
0.4 | 3.2462e−6 | 6.5933e−5 | 4.5436e−5 | 6.1071e−5 | 3.3860e−6 | 6.8002e−5 | 4.6455e−5 | 6.2820e−5 |
0.5 | 2.6935e−6 | 5.4772e−5 | 3.7778e−5 | 5.0747e−5 | 2.8333e−6 | 5.6841e−5 | 3.8797e−5 | 5.2496e−5 |
0.6 | 2.1408e−6 | 4.3610e−5 | 3.0120e−5 | 4.0423e−5 | 2.2806e−6 | 4.5679e−5 | 3.1140e−5 | 4.2171e−5 |
0.7 | 1.5882e−6 | 3.2449e−5 | 2.2463e−5 | 3.0098e−5 | 1.7279e−6 | 3.4518e−5 | 2.3482e−5 | 3.1847e−5 |
0.8 | 1.0355e−6 | 2.1288e−5 | 1.4805e−5 | 1.9774e−5 | 1.1752e−6 | 2.3357e−5 | 1.5824e−5 | 2.1523e−5 |
0.9 | 4.8280e−7 | 1.0126e−5 | 7.1480e−6 | 9.4499e−6 | 6.2258e−7 | 1.2195e−5 | 8.1671e−5 | 1.1198e−5 |
1 | 6.9888e−8 | 1.0345e−6 | 5.0957e−7 | 8.7434e−7 | 6.9888e−8 | 1.0345e−6 | 5.0957e−7 | 8.7434e−7 |