Fidel Gameplay
Senior Squad
Hello andrea, thanks for helping some users into my thread! bye bye and good work!
Tips for you:
the unit of measurement in fifa13 for ALTITUDE is the feet.
This is the explanation (http://en.wikipedia.org/wiki/Gravity_of_Earth):
Gravity decreases with altitude, since greater altitude means greater distance from the Earth's centre. All other things being equal, an increase in altitude from sea level to the top of Mount Everest (8,848 metres) causes a weight decrease of about 0.28%. (An additional factor affecting apparent weight is the decrease in air density at altitude, which lessens an object's buoyancy.[5]) It is a common misconception that astronauts in orbit are weightless because they have flown high enough to "escape" the Earth's gravity. In fact, at an altitude of 400 kilometres (250 miles), equivalent to a typical orbit of the Space Shuttle, gravity is still nearly 90% as strong as at the Earth's surface, and weightlessness actually occurs because orbiting objects are in free-fall.[6]
The following formula approximates the Earth's gravity variation with altitude:
Where
gh is the gravitational acceleration at height h\, above sea level.
re is the Earth's mean radius.
g0 is the standard gravitational acceleration.
This formula treats the Earth as a perfect sphere with a radially symmetric distribution of mass; a more accurate mathematical treatment is discussed below.
good edit bro!
Tips for you:
the unit of measurement in fifa13 for ALTITUDE is the feet.
This is the explanation (http://en.wikipedia.org/wiki/Gravity_of_Earth):
Gravity decreases with altitude, since greater altitude means greater distance from the Earth's centre. All other things being equal, an increase in altitude from sea level to the top of Mount Everest (8,848 metres) causes a weight decrease of about 0.28%. (An additional factor affecting apparent weight is the decrease in air density at altitude, which lessens an object's buoyancy.[5]) It is a common misconception that astronauts in orbit are weightless because they have flown high enough to "escape" the Earth's gravity. In fact, at an altitude of 400 kilometres (250 miles), equivalent to a typical orbit of the Space Shuttle, gravity is still nearly 90% as strong as at the Earth's surface, and weightlessness actually occurs because orbiting objects are in free-fall.[6]
The following formula approximates the Earth's gravity variation with altitude:
Where
gh is the gravitational acceleration at height h\, above sea level.
re is the Earth's mean radius.
g0 is the standard gravitational acceleration.
This formula treats the Earth as a perfect sphere with a radially symmetric distribution of mass; a more accurate mathematical treatment is discussed below.
good edit bro!