<u>Answer:</u>
Since numerous satellites circle inside the thermosphere, changes in the thickness of air at orbital heights expedited by warming and development of the thermosphere creates a drag power on satellites.
The thermosphere limit and the exosphere located above it is known as the thermopause. At the base of the thermosphere is the mesopause, the thermosphere boundary and the mesosphere underneath. Like the seas, Earth's air has waves and tides inside it. These waves and tides help move vitality around inside the environment, including the thermosphere.
Explanation:
<em>Earth helps learn about all of these and the processes that helped create the Earth and currently drive plate tectonics.</em>
Answer:
it's A as they r the natural features on Earth
Earthquakes produce P and S waves. The P waves are fast and of a higher frequency than S waves. P waves reach a point first and can pass through liquid media while S waves reach after and the lose much of their energy while passing liquid media. This is because S-waves are shear waves and require rigid/inelastic media for transmission.
During an earthquake, there is usually a shadow zone (where there is no destruction because S-waves did not reach) formed right above the epicenter of the earthquake. This is due to the fact that the S-waves were unable to transit through the liquid inner core of the earth before reaching the earth's surface. Only P-waves are registered in this shadow zone.
