1. Two attenuation laws are provided, one for rock sites and one for soil sites. ROCK ⇒ In(PGA) = 0.2418 + 1.414M – 2.55
Posted: Wed Jul 06, 2022 10:12 am
1. Two attenuation laws are provided, one for rock sites and one for soil sites.
ROCK ⇒ In(PGA) = 0.2418 + 1.414M – 2.552 ln(R + 1.7818e0.554M) + 0.00607H
SOIL → In(PGA) = −0.6687 +1.438M - 2.329 ln(R + 1.097e0.617M) + 0.00648H
where PGA is the maximum acceleration in g, M is the magnitude, R is the epicentral distance in km and H is the depth where the earthquake occurred in km.
2. Determine the PGA values for rock and soil, using the point I attenuation laws, for the following scenery: scenery 1: M = 5; H=20km; R = 10, 50, 100 and 200 km (perform the calculation for the 4 distances)
scenery 2: M = 6; H = 20 km; R = 10, 50, 100 and 200 km (perform the calculation for the 4 distances)
scenery 3 : M = 7, H = 20 km, R = 10, 50, 100 and 200 km (perform the calculation for the 4 distances)
3. Plot the values (use double logarithmic scale) and compare the results.
4. Send a report with the results obtained.
1. Se suministran dos leyes de atenuación, una para sitios en roca y otra para sitios en suelo. ROCA ⇒ In(PGA) = 0.2418 + 1.414M – 2.552 ln(R + 1.7818e0.554M) + 0.00607H - SUELO → In (PGA) = −0.6687 +1.438M - 2.329 ln(R + 1.097e0.617M) + 0.00648H donde PGA es la aceleración máxima en g, M es la magnitud, R es la distancia epicentral en km y H es la profundidad donde ocurrió el sismo en km.
2. Determinar los valores de PGA para roca y suelo, utilizando las leyes de atenuación del punto I, para los siguientes escenarios: Escenario I: M = 5; H = 20 km; R = distancias 10, 50, 100 y 200 km (realizar el cálculo para las 4 Escenario 2: M = 6; H = 20 km; R = 10, 50, 100 y 200 km (realizar el cálculo para las 4 distancias Escenario 3: M = 7; H = 20 km; R = 10, 50, 100 y 200 km (realizar el cálculo para las 4 distancias
Actividad 5 3. Graficar los valores (utilizar escala doble logarítmica) y comparar los resultados. 4. Enviar un informe con los resultados obtenidos.
ROCK ⇒ In(PGA) = 0.2418 + 1.414M – 2.552 ln(R + 1.7818e0.554M) + 0.00607H
SOIL → In(PGA) = −0.6687 +1.438M - 2.329 ln(R + 1.097e0.617M) + 0.00648H
where PGA is the maximum acceleration in g, M is the magnitude, R is the epicentral distance in km and H is the depth where the earthquake occurred in km.
2. Determine the PGA values for rock and soil, using the point I attenuation laws, for the following scenery: scenery 1: M = 5; H=20km; R = 10, 50, 100 and 200 km (perform the calculation for the 4 distances)
scenery 2: M = 6; H = 20 km; R = 10, 50, 100 and 200 km (perform the calculation for the 4 distances)
scenery 3 : M = 7, H = 20 km, R = 10, 50, 100 and 200 km (perform the calculation for the 4 distances)
3. Plot the values (use double logarithmic scale) and compare the results.
4. Send a report with the results obtained.
- 1 Two Attenuation Laws Are Provided One For Rock Sites And One For Soil Sites Rock In Pga 0 2418 1 414m 2 55 1 (62.91 KiB) Viewed 11 times
- 1 Two Attenuation Laws Are Provided One For Rock Sites And One For Soil Sites Rock In Pga 0 2418 1 414m 2 55 2 (31.19 KiB) Viewed 11 times
2. Determinar los valores de PGA para roca y suelo, utilizando las leyes de atenuación del punto I, para los siguientes escenarios: Escenario I: M = 5; H = 20 km; R = distancias 10, 50, 100 y 200 km (realizar el cálculo para las 4 Escenario 2: M = 6; H = 20 km; R = 10, 50, 100 y 200 km (realizar el cálculo para las 4 distancias Escenario 3: M = 7; H = 20 km; R = 10, 50, 100 y 200 km (realizar el cálculo para las 4 distancias
Actividad 5 3. Graficar los valores (utilizar escala doble logarítmica) y comparar los resultados. 4. Enviar un informe con los resultados obtenidos.