The answer is <span>D. </span><span>smaller soil deposits that require more artificial fertilizers</span>
Answer:
Factor that helps most people predict the force and danger of a tsunami is obviously the developed technology we attain now.
Explanation:
Abnormal ocean activity, a wall of water, and an approaching tsunami create a loud "roaring" sound similar to that of a train or jet aircraft. If you experience any of these phenomena, don't wait for official evacuation orders. Immediately leave low-lying coastal areas and move to higher ground."
Inundation and run-up are often determined by measuring the distance of killed vegetation, scattered debris along the land and eyewitness accounts of the incident. Scientists have made great strides in monitoring and predicting the ongoing threat of tsunamis.
Deep-ocean tsunami detection buoys are one of two types of instrument used by the Bureau of Meteorology (Bureau) to confirm the existence of tsunami waves generated by undersea earthquakes. These buoys observe and record changes in sea level out in the deep ocean.
The biggest problem in predicting the size of a tsunami is in determining exactly how much energy was put into the ocean by an earthquake, and that is something that cannot be determined in the immediate aftermath of the event.
Answer:
Sahara and the great sandy.
Explanation:
- The result of the global circulation of the winds on the earth that create dry and high-pressure areas to the 30 degrees of both north and the south part of the country.
- A result of the flow of the westerlies and these are mod latitudes the interaction of the Hadley cells that usually form the ITCZ zone and is produced thermodynamically.
The thermal convection that drives plate motion is caused by the breakdown of radioactive materials in the Earth's mantle. The mantle is a semi-solid area in the Earth's subsurface. Concentrations of potassium, uranium, and thorium constantly undergo fission thereby releasing energy in the form of heat. This heat results in convection currents.