the distance to the epicenter
No, though they can narrow it down to two possible locations.
A seismograph itself cannot prevent the effect of an earthquake. It is an instrument that measures and records seismic waves generated by an earthquake. The data collected by seismographs helps scientists study and understand earthquakes, which in turn can contribute to improved building codes and earthquake-resistant infrastructure. Preventing the effect of an earthquake requires engineering solutions such as designing structures to withstand seismic forces or implementing early warning systems.
magnitude and distance betwean the stations, but not right left deviation, assuming the ground is the same.
there is a short amount of time because people do not know when an earthquake will actually occur. so a building can't crush down on you when you just figure out a earthquake is happening.Read more: Why_is_there_only_a_short_amount_of_time_to_evacuate_before_an_earthquake
Seisometers are used to measure how much the ground moves, but the only real way to detect them is to look at previous records as to how long it has been since an earthquake; if it a long time, an earthquake could happen soon.
Three seismic stations are needed to find the epicenter of an earthquake because all three radial circles made by the stations will only meet at one point. (example: if you only had to circles they would meet at two different points)At least 3
Then you would end up with 2 possible locations for the epicenter. You need a 3rd station to confirm the actual location.
Two stations each give out a circle. Those circles intersect at two places. When a third station is added, there are three circles. These three circles only intersect together at one place. That's where the precise earthquake location is.
The simplified answer is that it works much in the same way you would determine the source of a sound (which is also in waves). Multiple measurements of the intensity are taken from different locations are used to triangulate an earthquake.
seismic waves actually the correct answer is S waves. trust me if you put seismic waves it will be wrong
This only works if you choose the city San Francisco area.Eureka, CA Seismic Station S-P Interval = 50 secElko, NV Seismic Station S-P Interval = 72 secLas Vegas, NV Seismic Station S-P Interval =64 secThen click to the next screen and enter:Eureka, CA- Epicentral Distance = 482/kmElko, NV- Epicentral Distance = 700/kmLas Vegas, NV- Epicentral Distance = 622/kmThen click until you can enter more numbers:Eureka, CA Maximum S Wave Amplitude= 290Elko, NV Maximum S Wave Amplitude= 60Las Vegas, NV Maximum S Wave Amplitude= 100Then type in:My estimate for the Richter magnitude of this earthquake = 7.0Then click enter and there you go! Simply enter your name and send to your teacher :)Its really not that hard once you figure it out but if you dont want to learn anything, take the easy way out!
A seismic travel time curve describes the relation between the travel time of a seismic wave and the epicentral distance. It is used to calculate the calculate the distance of the earthquake's epicenter from the seismograph.
No, though they can narrow it down to two possible locations.
A seismograph itself cannot prevent the effect of an earthquake. It is an instrument that measures and records seismic waves generated by an earthquake. The data collected by seismographs helps scientists study and understand earthquakes, which in turn can contribute to improved building codes and earthquake-resistant infrastructure. Preventing the effect of an earthquake requires engineering solutions such as designing structures to withstand seismic forces or implementing early warning systems.
Yes, it's the only one, except for heat, microwave, tidal, light, infrared, X-ray, ultraviolet, and seismic (earthquake) energy.
seismic waves
Yes, it's the only one, except for heat, microwave, tidal, light, infrared, X-ray, ultraviolet, and seismic (earthquake) energy.