Deck 3: Earthquakes and Their Causes

The distance to the epicenter is determined by the time delay between the arrival of P and S waves.

Transform boundaries are most closely associated with reverse thrust faults.

Stresses cause rocks to deform; earthquakes occur as the rock can no longer deform and ruptures.

The Mercalli scale uses both subjective and objective measurements of intensity.

Earthquakes always occur at plate boundaries.

The first earthquake waves received by a seismograph near the epicenter are P waves.

Long fault lines spread out stress and produce smaller earthquakes than short ones.

The Richter magnitude is determined by measuring the amplitude of wave motion on a seismograph.

During an earthquake, solid rock produces more shaking and building damage than loose, water-saturated soils.

Strain in a fault can be released slowly by _______________ if segments of the fault slip slowly and continuously.

Small earthquakes that precede a large earthquake are referred to as _______________.

Eastern North American areas such as Missouri are at risk of suffering _______________ earthquakes.

_______________ refers to the change in rock shape due to stress.

_______________ faults move rock above the fault up and over rock below with a steep fault surface incline.

The _______________ magnitude measures the total energy output of an earthquake.

The map point directly above an earthquake's focus is called the _______________.

You are located a few dozen kilometers from a magnitude 6.0 earthquake. Describe the sequence and effects that you will experience as a result of the different types of earthquake waves that will pass you.

The _______________ scale uses only objective measurements to describe an earthquake's intensity.

Describe some of the evidence for a major earthquake on the Cascadia fault around 1700, and the reason why the fault is considered to be extremely dangerous.

Describe the key elements of what happens to rock before, during and after an earthquake in the elastic rebound theory.

Describe four common types of faults and the key characteristics or motion of each.

Earthquakes can cause _______________ in which soil that is ordinarily stable behaves like a fluid.

The atomic bomb dropped on the city of Hiroshima, Japan at the close of World War II ("Little Boy") released energy equivalent to 15 kT (about 15 million kilograms of explosive). The largest nuclear weapon ever tested was a 50 MT (about 50 billion kilograms of explosive) weapon ("Tsar Bomba") developed by the Soviet Union in 1961. ​ Discuss the magnitude of an earthquake required to produce energy equivalent to each weapon, the frequency at which such earthquake occur, and differences you might expect in the way nuclear weapons and earthquakes cause harm to a population. Refer to Figure 3-28 in your text, which illustrates t he average number of earthquakes per year, worldwide, and a comparison of the amount of energy they expend.

_______________ waves are the last to arrive as the result of an earthquake, producing a rolling motion of the ground.