Answer: because after all if all natural things die we will too assuming most people depend on natural vegetation to live.
Explanation:
Answer:
1) 100%
2) Lose.
3) Entropy.
The second law of thermodynamics states that no process is 100% efficient. Thus, every system in the universe has a specific amount of energy in it. As the system functions, it will lose energy and gain entropy.
Explanation:
The second law of thermodynamics, also known as the entropy law or heat engine law, states that the total entropy of an isolated system can never decrease over time. It either increases (for irreversible processes, that is, most real life processes) or it remains constant (for reversible processes).
This translates to an expected loss of energy for any real life process thereby making it impossible for any process to be 100% efficient. This all then leads to entropy increase (a gain of entropy).
Hope this Helps!!!
<span>Ocean currents aid in
the transportation of cold water towards the tropics and warm water towards the
poles. By so doing, they help in the regulation of climate by ensuring that the
uneven distribution of solar energy is counteracted. This in turn impacts on
climate.</span>
The mid-latitude
coastal city at the western boundary is likely to experience cool summers than
they should and cool winters. On the contrary, a mid-latitude city on the
eastern boundary is likely to experience a warmer weather. This mainly occurs
because the two areas have different water temperatures. On the west, the gulf
stream that feeds up the hurricane is usually warm as opposed to the east where
ocean surface temperatures tend to be low.
<u>Answer:</u>
Streams, any running water from a creek to a furious waterway, complete the hydrologic cycle by returning precipitation that falls ashore to the seas. A portion of this water moves over the surface, and a few travel through the ground as groundwater. Streaming water takes every necessary step of both disintegration and testimony.
Streams with a high angle have a quicker speed and more noteworthy competence. Particles that are too huge even to consider being conveyed as suspended burdens are knocked and pushed along the stream bed, called bed load.
