NUMERICAL SIMULATION AS GUIDANCE IN MAKING TSUNAMI HAZARD MAP FOR LABUAN ISLAND By MOHD RIDZUAN bin Adam (Tsunami Course, 2009) Malaysian Meteorological Department (MMD), Ministry of Science, Technology and Innovation (MOSTI), Malaysia 1. Fault Parameters of Tsunami Sources Table 1. Faults parameters for each scenario earthquake. No. Magnitude M w Length (L) (km) Width (W) (km) Strike (ø) (°) Dip (δ) (°) Rake (λ) (°) Slip (u) (m) Top Depth (H) (km) Latitude (°) Longitude (°) 1 8.0 162.2 70.8 0 30 90 2.19 25 13.8 119.5 2 8.1 North 162.2 70.8 0 30 90 2.19 25 13.8 119.5 South 96 41.9 315 30 90 1.29 20 13.2 120.2 3 8.5 North 305.5 101.2 0 30 90 4.57 25 13.8 119.5 South 96 41.9 315 30 90 1.29 20 13.2 120.2 Figure 1. Areas of computation using nested grids.
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NUMERICAL SIMULATION AS GUIDANCE IN MAKING TSUNAMI … · 2014-11-18 · MOHD RIDZUAN bin Adam (Tsunami Course, 2009) Malaysian Meteorological Department (MMD) , Ministry of Science,
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NUMERICAL SIMULATION AS GUIDANCE IN MAKING TSUNAMI HAZARD MAP FOR LABUAN ISLAND
By MOHD RIDZUAN bin Adam (Tsunami Course, 2009) Malaysian Meteorological Department (MMD), Ministry of Science,
Technology and Innovation (MOSTI), Malaysia
1. Fault Parameters of Tsunami Sources
Table 1. Faults parameters for each scenario earthquake. No. Magnitude