#### Question: How Far Above Earth Surface Will The Acceleration Of Gravity?

On Earth, it has a value of 9.8 m/s2. The acceleration of gravity on Earth’s surface at sea level is 9.8 m/s2, or 9.8 meters per second.

The value of g is determined by its location.

Location | Distance from Earth’s center (m) | Value of g (m/s^{2}) |
---|---|---|

Earth’s surface | 6.38 x 10^{6} m |
9.8 |

1000 km above surface | 7.38 x 10^{6} m |
7.33 |

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Contents

- 1 How far above the earth’s surface will the acceleration of gravity be half what it is at sea level?
- 2 At what height above the earth’s surface would the acceleration due to gravity be?
- 3 How far away from Earth does gravity stop?
- 4 At what height above the surface of the earth does the acceleration due to gravity become one fourth of that on Earth?
- 5 At what height above the surface of the earth will the acceleration due to gravity be 25?
- 6 How far above the earth’s surface does the value of G becomes 50% of its value on the earth surface?
- 7 At what height above the surface of the earth will the acceleration due to gravity be half of its value on the earth’s surface radius of the earth 6400km?
- 8 At what height above the surface of the earth the value of acceleration due to gravity is 1 16?
- 9 How far away from Earth surface does the acceleration due to gravity becomes 25% of its value at Earth’s surface re 6400 km )?
- 10 Is there a place on earth without gravity?
- 11 Does earth have zero gravity?
- 12 Does zero gravity exist?
- 13 At what distance above the surface of the Earth the acceleration due to gravity decreases by 10?
- 14 At what height the acceleration due to gravity is zero?

## How far above the earth’s surface will the acceleration of gravity be half what it is at sea level?

At a height of 2.65106 m above the earth’s surface, the acceleration caused by gravity is decreased to half its value on the earth’s surface.

## At what height above the earth’s surface would the acceleration due to gravity be?

In this case, let $g’$ be half of $g$, and $R$ represents the radius of the earth. We will now use $dfracg2$ in place of $g’$, because $g’ = dfracg2$ in the equation. As a result, the acceleration due to gravity would be $2650,km$ if the height of the earth’s surface was greater than half of the value of its half-life.

## How far away from Earth does gravity stop?

The gravitational field of the Earth stretches far into space and does not come to a halt. However, as one moves farther from the center of the Earth, the effect becomes less powerful. The Space Shuttle circles the Earth at a height of around 125 miles above the surface, which is approximately the distance between Jackson and Nashville!

## At what height above the surface of the earth does the acceleration due to gravity become one fourth of that on Earth?

The radius of the earth is represented by the letter “r.” The gravitational acceleration at a height H above the surface of the earth is denoted by the letter “g.” “r” is the height above the surface at which the acceleration due to gravity will be 1/4th of its value on the earth’s surface when the acceleration due to gravity is at its maximum (radius of the earth).

## At what height above the surface of the earth will the acceleration due to gravity be 25?

As a result, at a height of 6400 km, the acceleration due to gravity is equal to 25 percent of the acceleration due to gravity at the surface of the earth’s surface.

## How far above the earth’s surface does the value of G becomes 50% of its value on the earth surface?

If we assume that the Earth has a radius of 6,371 kilometers, the distance above the surface at which gravitational acceleration is halved is 2,639 kilometers.

## At what height above the surface of the earth will the acceleration due to gravity be half of its value on the earth’s surface radius of the earth 6400km?

2650 km and 6400 km are the answers.

## At what height above the surface of the earth the value of acceleration due to gravity is 1 16?

As a result, at a height of 1600 kilometers, the value of the g is 64 percent of its original value. As a result, this is the required response. As a result, choice (A) is the proper response.

## How far away from Earth surface does the acceleration due to gravity becomes 25% of its value at Earth’s surface re 6400 km )?

At a height of 6400 kilometers above the surface of the earth, the acceleration due to gravity decreases to 25% of its value on the surface of the planet.

## Is there a place on earth without gravity?

The Hoover Dam in Nevada, United States, is an example of a region where gravity does not appear to exist at all. Do you still not believe us? So, if you chance to be at this location at any point in time, you should do this experiment. Place yourself close to the dam and pour water from a bottle over the top of the dam.

## Does earth have zero gravity?

It is called zero gravity or weightlessness for astronauts circling the Earth in a space station because their spaceship is constantly changing the velocity of its orbit in order to avoid being drawn into the Earth’s atmosphere. are impacted by the gravitational pull on them On Earth, zero gravity is equal to 0 m/s2.

## Does zero gravity exist?

Despite common perception, there is no such thing as a zero gravity environment. The moon is held in orbit by the gravitational pull of the earth. Furthermore, astronauts are often far closer to the earth than the moon, which implies that the planet’s gravitational force on them must be significantly larger.

## At what distance above the surface of the Earth the acceleration due to gravity decreases by 10?

At a depth of 640 kilometers below the surface of the Earth, the magnitude of gravity’s acceleration reduces by 10%.

## At what height the acceleration due to gravity is zero?

Gravity falls with height at the Earth’s surface (sea level), to the point where linear extrapolation would result in zero gravity at a height of one-half of the Earth’s radius – (9.8 ms2 per 3,200 km).