phenomenal situation;

Note that although earth's Coriolis force plays a major role in shaping hurricanes and ocean currents, since it is not a static force, it does not contribute to your overall weight. Also, additional forces appear when you ride a roller-coaster, an elevator, a swing, or another vehicle, but these forces are transient, so they do not contribute to your overall, long-term weight. Finally, electromagnetic and nuclear forces are either too small-scale, or too short-term to contribute to your overall weight.

For our purposes, we want to consider the forces that differ significantly at the equator versus the poles. While the sun's gravity is strong enough to keep us and the earth in orbit, the sun's position relative to a spot on the equator versus the poles is constantly changing. As a result, averaged over a few days, the gravitational force of the sun on a spot on the equator is the same as the gravitational force of the sun on a spot on the poles. The same situation applies to the moon. This leaves only earth's gravity and earth's centrifugal force as the two forces that contribute to your weight differing at the equator versus the poles.

As we learned in high school, earth's gravity is approximately constant all over the surface of the earth. But this is only an approximation. If the earth were perfectly spherical and if its density were perfectly uniform, then the strength of earth's gravity would be exactly constant at all points on its surface. But it's not. There are three major complications to earth's gravitational field. First the earth is not a sphere. The earth is spinning, causing it to slightly flatten like a pizza crust thrown and spun in the air. As a result, the earth is anoblate spheroidand not a perfect sphere. If you stand at sea level on the equator, you are 6378 km from the center of the earth. In contrast, at each pole, you are only 6357 km from the center of the earth. Since the strength of gravity weakens as you get farther away from a gravitational body, the points on the equator are farther and have weaker gravity than the poles. The other two complications to earth's gravitational field; non-uniform internal density and local surface mass variations such as mountains; are small enough factors that we will neglect them here. Therefore, assuming the entire mass of the earth is located at its center, we can calculate the force of earth's gravity at the equator and at the poles. UsingNewton's law of gravity, we find that the force of earth's gravity on your body at the equator is 9.798 m/s²times the mass of your body, whereas at the poles it is 9.863 m/s²times the mass of your body.

quetions

1.for the context of business law, explain and come up with a report that analyses theCompany Property ownership perspective

2.as a characteristic of the parties in the business law conflict ,analyze how to mitigate disagreements in the Contractual Relationship

3.what are the guideline milestones that guide the Sharing Profits and Business in the business law

4.what could be termed as the existence of lawful business governing the black marketing in business law?

5.from the nature of the business law objectives, discuss the REGISTRATION OF CHARGES CREATED (Sec. 369) appropriately

6.where does the POWER TO HOLD LAND(Sec 367(2)) originate from while relocating the premises of any business according to the business law concept?

7.consider the list of the directors and relate it to the corporate name and registered arena in business law

8.describe the RELEASE OF LIQUIDATOR and analyze the conceptualization of the distribution of final dividend

9.connect the Receivership role and enumerate the parameter that come along with it business law as a rescue measure

10.in business law, how canThe power to declare the dissolution of the company void be adopted?