The answer depends on what h is supposed to represent.
That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).
9.8 m/s2 ---------------------- Yes this is the average value of acceleration due to gravity near by the surface of the earth. As we go higher and higher level this g value decreases and becomes almost negligible. Same way as we go deeper and deeper the g value decreases and at the centre of the earth its value becomes zero.
In geometry, a plane is a flat two-dimensional "surface" (similar to a sheet of paper, but with no thickness and no finite length or width). A plane is defined by three points, each of which forms a line with the other two points within the plane. In three dimensions, the simplest version of a plane would include all of the points with any x and y value that contain the same value for z.A plane is a flat surface or a 2-dimensional object, stretching to infinity in all directions.
It is 9.81 ms-2, although there are variations across the surface of the earth.
Archimedes accurately estimated the value of pi. He was also the Greek inventor that created the compound pulley and first device used for extracting water from below the surface of the earth as well.
Yes the Earth has a vertical electric field that points down. So if you were to try and calculate the amount of excess charge on the Earth's surface, you would get a negative value.
at about 9km above the surface of the sea.
At the surface, 38% of its value at the Earth's surface.
At the surface, it is 2.64 times its value at the Earth's surface.
The acceleration of gravity at the 'surface' of Jupiter is 2.639 times its value at the Earth's surface.
The numerical value of acceleration due to gravity at the surface of the earth is 9.8 meter per square second or 9.8m/s. This is the value that is generally used.
The acceleration of gravity on the surface of Mars, and therefore the weightof any object placed there, is 37.95% of its value on the Earth's surface.
The acceleration of gravity ... and therefor the weight of any object ... on thesurface of Mercury is 37.698% of its value on the surface of Earth. (rounded)
Normally you can use a value of approximately 9.8 meters/second2. Please note that that applies to planet Earth, close to the surface; at a great distance from Earth, or near the surface of other planets, the value for gravity is quite different.
The free fall acceleration of the earth is approximately related to the distance from the surface by the following formula. g = GM/(R2 + h) where G = universal gravitational constant, M = Mass of Earth, R = Radius of Earth, h = distance from the surface of the earth g = 3.98 * 1014 / ( (6.0 * 106 )2+ h) as h increases to a very low value near the surface of the earth the value of g can be approximately taken to be constant near the surface of the earth. So the acceleration is constant near the surface of the earth.
At the Earth's surface the nominal value is about 9.8 m/s2. The exact value varies from place to place.
It's the Earth leakage resistance (Ohm)