why did the water to and fro?
Answers
Answer:
About the random motion, Yes, and it part of what is called Brownian motion - Wikipedia if the fluid is water. You have molecules of water in your body right now qualifying for moving at velocities of 1,000 C. Not many of them, nor for very long as they bump into a molecule moving at -100 C, which tends to lend the velocity of the faster moving molecule to that of the slower one.
There are about one billion x billion (1,000,000,000,000,000,000 or 10x18) molecules in a cubic centimeter. When they hit each other at differing speeds and angles, velocities are exchanged. Since the average molecule has enormous amounts of velocity changes every second, and thus far more than the above numbers of molecules.
But the average is about the same. Think of it as the statistical average Las Vegas casinos have to make sure that they make money. If the volume of exchanges are high enough, it becomes statistically irrelevant to worry about unusual situations.
We do not think of our world and body as such, yet it is on a very small atomic or moleculat level.
Think of it as a game of Glossary of cue sports terms - Wikipedia balls, which instead billions of balls are moving. Soon many speeds are available, and unlike the game the speeds do not slow down very quickly or have friction in the traditional sense.
Normally the speeds are so quickly exchanged that dissociation does not take place, splitting the hydrogen from the oxygen, when that “hot^”.
Now one way it might gain speed is when slower molecules approach on the side. I would think if you look at the force vectors, even a molecule traveling at speeds circa -20C are fast enough to assist furthering velocity. All of this is done by chance interactions, of course.
Not sure how it works exactly. Since atoms do not really hit each other, being almost entirely open space, more of something like Gravity assist - Wikipedia due to spinning motion is possible. Any atomic physicists out there who wish to comment? The atomic forces are quite different than those of gravitational weak forces.
Answer:
The sun heats the Earth unevenly as it turns. These conditions actually affect the air and wind patterns on the planet surface. All of this moving air pushes the water in the ocean around. ... But, because of the Earth's spin, wind belts in the northern hemisphere bend to the right.