Acceleration due to gravity: Difference between revisions

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imported>'Dragon' Dave McKee
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References
References


1. V.Dorobantu and Simona Pretorian, Physics between fear and respect, Vol. 3, Edited by Politehnica
1. V. Dorobantu and Simona Pretorian, Physics between fear and respect, Vol. 3, Edited by Politehnica                                         Timisoara, 2007, ISBN 978-973-625-493-2
                                          Timisoara, 2007, ISBN 978-973-625-493-2

Revision as of 20:16, 23 February 2008

Considering a body with the mass M as a source of a gravitational field, the strength of that field, or the gravitational acceleration, is given by . The modulus of g is .

Here G is the gravitational constant, G = 6.67428×10-11 Nm2/kg2, r is the distance between a body of mass m and the center of the gravitational field, is the vector radius of that body having the mass m. If the source of the gravitational field has a spherical shape, then r is the sphere’s radius. Taking into account that the Earth is an oblate spheroid, the distance r is not that of a sphere and varies from the equator to the poles.

OblateSpheroidAngles.png

A normal section (on the equatorial plane) is almost an ellipse, so, r can be done by:


where re and rp are the equatorial radius and polar radius, respectively and θ is the latitude, or the angle made by r with the equatorial plane.

References

1. V. Dorobantu and Simona Pretorian, Physics between fear and respect, Vol. 3, Edited by Politehnica Timisoara, 2007, ISBN 978-973-625-493-2