How far away the star is.
The apparent shift in wind direction that is caused by the Earth's rotation is called the?
The Tsunami in Japan in 2011 was caused by an earthquake gesitering a magnitude 9.0.
It is sudden combustion caused without any apparent reason
The earthquake in Haiti on January 12, 2010 had a magnitude of 7.0 on the Richter scale. It caused widespread devastation and loss of life in the country.
A decrease in a star's absolute brightness could be caused by the star moving farther away from Earth, interstellar dust blocking some of its light, or a decrease in the star's temperature. All of these factors would result in less light reaching Earth, causing a decrease in the star's apparent brightness.
No. Star color is caused by factors such as size and temperature. However, apparent magnitude (brightness) IS partially caused by distance.
If retardation is caused by chromosomal or other genetic disorders, it is often apparent from infancy.
The apparent shift in wind direction that is caused by the Earth's rotation is called the?
The Tsunami in Japan in 2011 was caused by an earthquake gesitering a magnitude 9.0.
It is caused by the earth's rotation.
Yes it is possible. The 7.5 magnitude earthquake caused a large tsunami.
coriolis force
It is caused by the rotation of earth.
Coriolis effect
Magnitude is a measure of the energy released by the earthquake - it is an absolute value and does not vary with where it is measured. Intensity measures the strength of the shaking at a particular location and will vary with distance, substrate conditions and other factors. It is a subjective measure which depends on observation, not measurement. The reference below sets it all out for you.Is also an answer but here's another answer:This is my answer:D(Magnitude / Intensity Comparison)(Magnitude and Intensity measure different characteristics of earthquakes. Magnitude measures the energy released at the source of the earthquake. Magnitude is determined from measurements on seismographs while Intensity measures the strength of shaking produced by the earthquake at a certain location. Intensity is determined from effects on people, human structures, and the natural environment.)
-3.0 magnitude or if you want the ground motion: Each time the magnitude increases by one unit, the measured ground motion becomes 10 times larger. For example, an earthquake with a magnitude of 5.0 on the Richter scale will produce 10 times as much ground motion as an earthquake with a magnitude of 4.0. Furthermore, an earthquake with a magnitude of 6.0 will produce 100 times as much ground motion (10 × 10) as an earthquake with a magnitude of 4.0.
Coriolis effect