Problem 3 The Richter scale is a logarithmic function developed in 1935 by Charles Richter to measure the magnitude of earthquakes. The simplied version is defined as M : log G), where M is the magnitude, i is the intensity [measured by the amplitude of the earthquake's waves in a seismograph reading], and 3 Is a constant equal to the amplitude of the \"standard earthquake,\" which is a minimum threshold whose intensity {amplitude} is 10" cm. all Find the magnitude ofan earthquake whose waves have an intensity {amplitude} of {1.5 cm. Round to one decimal place. b} Find the magnitude of the standard earthquake. c] Find the intensityr {amplitude} in cm of the waves of earthquakes of magnitudes 4.1, 5.1, and 6.1. Round each answer to one decimal place. cl} Do you notice a pattern In the intensities for the given magnitudes in part ic]? This project was created by Richard Adams e} California experiences more than 100 earthquakes per day, but most of them are small in magnitude and are not felt or cause little to no damage {less than magnitude 3}. On July 5 of 2019, a magnitude 7.1 earthquake struck near Ridgecrest, CA. It was the most powerful earthquake in the area in more than 20 years and was strong enough to be felt in Fresno 200 miles away. The San Francisco earthquake of 1906 is perhaps the most famous earthquake in California, and with a magnitude of 7.9, it ca used massive damage and res. Source: Caiirm'o Earthguake Authoritg. How many times more intense was the San Francisco earthquake than the Ridgecrest earthquake? f] The Sendai earthquake off the coast ofiapan in 2011 had a magnitude of 9.1 and caused major damage, including a tsunami that instigated a nuclear accident at a power plant near the coast. How manytimes more intense was the Sendai earthquake than the San Francisco earthquake