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The magnitude, m, of an earthquake is defined to be m = log startfraction i over s endfraction, where i is the intensity of the earthquake (measured by the amplitude of the seismograph wave) and s is the intensity of a "standard" earthquake, which is barely detectable. what is the magnitude of an earthquake that is 35 times more intense than a standard earthquake? use a calculator. round your answer to the nearest tenth.

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raphealnwobi

The magnitude of an earthquake that is 35 times more intense than a standard earthquake is 1.5

What is an equation?

An equation is an expression that shows the relationship between two or more variables and numbers.

The magnitude, m, of an earthquake is:

m = log (I/S)

Where I is the intensity of the earthquake and S is the intensity of a "standard" earthquake. Hence, for an earthquake that is 35 times more intense than a standard earthquake:

m = log (35S / S) = log (35) = 1.5

The magnitude of an earthquake that is 35 times more intense than a standard earthquake is 1.5

Find out more on equation at: https://brainly.com/question/2972832

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