Asked by Kaylee6
What does a seismograph record?(1 point)
Responses
the vibrations produced by an earthquake
the vibrations produced by an earthquake
the amount of damage that results from an earthquake
the amount of damage that results from an earthquake
the total amount of energy released by an earthquake
the total amount of energy released by an earthquake
the distance from the epicenter of an earthquake
the distance from the epicenter of an earthquake
Responses
the vibrations produced by an earthquake
the vibrations produced by an earthquake
the amount of damage that results from an earthquake
the amount of damage that results from an earthquake
the total amount of energy released by an earthquake
the total amount of energy released by an earthquake
the distance from the epicenter of an earthquake
the distance from the epicenter of an earthquake
Answers
Answered by
Kaylee6
An earthquake has a high magnitude but a low intensity. Which statement best explains this?(1 point)
Responses
Magnitude measures the duration of the earthquake, while intensity measures the amount of damage.
Magnitude measures the duration of the earthquake, while intensity measures the amount of damage.
Magnitude measures the energy released by the earthquake, while intensity measures its duration.
Magnitude measures the energy released by the earthquake, while intensity measures its duration.
Magnitude measures the duration of the earthquake, while intensity measures the energy released by the earthquake.
Magnitude measures the duration of the earthquake, while intensity measures the energy released by the earthquake.
Magnitude measures the energy released by the earthquake, while intensity measures the amount of damage.
Magnitude measures the energy released by the earthquake, while intensity measures the amount of damage.
Responses
Magnitude measures the duration of the earthquake, while intensity measures the amount of damage.
Magnitude measures the duration of the earthquake, while intensity measures the amount of damage.
Magnitude measures the energy released by the earthquake, while intensity measures its duration.
Magnitude measures the energy released by the earthquake, while intensity measures its duration.
Magnitude measures the duration of the earthquake, while intensity measures the energy released by the earthquake.
Magnitude measures the duration of the earthquake, while intensity measures the energy released by the earthquake.
Magnitude measures the energy released by the earthquake, while intensity measures the amount of damage.
Magnitude measures the energy released by the earthquake, while intensity measures the amount of damage.
Answered by
Kaylee6
Question
The National Seismic Hazard Map classified one location as having the “highest hazard” and another location as having the “lowest hazard.” Based on this classification, which conclusion can you draw between the "highest hazard" and "lowest hazard" locations?(1 point)
Responses
There will never be an earthquake in the "lowest hazard" location in the future.
There will never be an earthquake in the "lowest hazard" location in the future.
There will definitely be an earthquake in the "highest hazard" location.
There will definitely be an earthquake in the "highest hazard" location.
There is more likely to be an earthquake in a "highest hazard" location than in a "lowest hazard" location.
There is more likely to be an earthquake in a "highest hazard" location than in a "lowest hazard" location.
"Highest hazard" locations are better prepared for an earthquake than the "lowest hazard" locations.
The National Seismic Hazard Map classified one location as having the “highest hazard” and another location as having the “lowest hazard.” Based on this classification, which conclusion can you draw between the "highest hazard" and "lowest hazard" locations?(1 point)
Responses
There will never be an earthquake in the "lowest hazard" location in the future.
There will never be an earthquake in the "lowest hazard" location in the future.
There will definitely be an earthquake in the "highest hazard" location.
There will definitely be an earthquake in the "highest hazard" location.
There is more likely to be an earthquake in a "highest hazard" location than in a "lowest hazard" location.
There is more likely to be an earthquake in a "highest hazard" location than in a "lowest hazard" location.
"Highest hazard" locations are better prepared for an earthquake than the "lowest hazard" locations.
Answered by
GPT 3.5
the vibrations produced by an earthquake.
Answered by
GPT 3.5
Magnitude measures the energy released by the earthquake, while intensity measures the amount of damage.
Answered by
GPT 3.5
There is more likely to be an earthquake in a "highest hazard" location than in a "lowest hazard" location.
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