The magnitude of the 1923 Tokyo earthquake was 7.9 on the Richter scale.
Length of quake: 4-10 minutes.
Overall, estimated damage included the loss of 570,000 residences and a cost in excess of one billion U.S. dollars in today's figures. There were 105,000 confirmed deaths, and another 40,000 or so who went missing.
about 2 to 4 minutes depending upon the magnitude
Magnitude is a term used to describe how much energy was released by an earthquake. It gives an indication of the amplitude of the seismic waves that occur and also on the length of the fault rupture zone and the displacement along the fault. A magnitude 7 earthquake is defined by the US Geological Survey as a "major" earthquake. In general earthquake over a magnitude of 4 or 5 can cause damage although the exact reasons why some earthquake are more damaging than others is more complext than just the absolute magnitdue of the earthquake. For more information on this, see the related question.
As the length of the slipped fault increases (all other factors being equal), so too does the magnitude of the earthquake.
No, earth's orbit around the sun did not change as result of the earthquake/ Tsunami in Japan, which was actually updated to a magnitude 9.0 earthquake. The length of a day, though, did change, and it changed by 1.8 millionths of a second. For earth's orbit to change, something would have to hit earth from outer space.
The "moment" magnitude of an earthquake is a measure of how much energy is released when an earthquake occurs. It is derived from the stiffness or rigidity of the rock mass around the fault rupture zone, the length of the fault that moved and the cross sectional area of the fault zone. Seismologists can also estimate its value based on the amplitude of seismic waves recorded on a seismometer. The Richter scale (currently used to measure small and medium strength earthquakes with magnitudes below 7.0 - larger earthquakes magnitudes are measured using the moment magnitude scale as described above) is also a measure of the amount of energy released by an earthquake and is derived based on the maximum amplitude of the seismic waves as recorded on seismometers.
the magnitude is 111.2 the length is 24 days and the damage there was no damage
the magnitude is 111.2 the length is 24 days and the damage there was no damage
the magnitude is 7.9 the Length is: 24 Time:2-10 mintues
the damage was 242, 000 people were killed
The 1927 Gulang earthquake in China had a magnitude of approximately 7.6. It caused extensive damage in the Gansu province, with over 200,000 fatalities reported. The earthquake also triggered landslides and destroyed buildings, leaving many people homeless.
The Peru earthquake in 1970 had a magnitude of 7.9 and caused devastating damage in the region. It resulted in the loss of approximately 70,000 lives and significant destruction to infrastructure and buildings.
about 2 to 4 minutes depending upon the magnitude
Magnitude is a term used to describe how much energy was released by an earthquake. It gives an indication of the amplitude of the seismic waves that occur and also on the length of the fault rupture zone and the displacement along the fault. A magnitude 7 earthquake is defined by the US Geological Survey as a "major" earthquake. In general earthquake over a magnitude of 4 or 5 can cause damage although the exact reasons why some earthquake are more damaging than others is more complext than just the absolute magnitdue of the earthquake. For more information on this, see the related question.
As the length of the slipped fault increases (all other factors being equal), so too does the magnitude of the earthquake.
Quantitive evidence is evidence that has to do with numbers. For example. the magnitude of an earthquake the time the earthquake occurred and the length of the earthquake are all types of quantitive evidence
The earthquake in Turkey in 1992 had a moment magnitude of 6.8 and caused significant destruction. The length of the earthquake would refer to the duration of the shaking, which typically lasts for seconds to a minute, depending on the magnitude.
The Gansu Earthquake of 1920 had a magnitude of 8.6 and caused severe damage in the Gansu province of China. It resulted in approximately 200,000 to 240,000 fatalities, making it one of the deadliest earthquakes in history.