Acceleration due to gravity: Difference between revisions

Revision as of 16:57, 24 February 2008

Under Newtonian gravity, the gravitational field strength, or gravitational acceleration, due to a point mass M is given by ${\vec {g}}=-G{\frac {M}{r^{2}}}{\frac {\vec {r}}{r}}$ . The modulus of g is $|g|=G{\frac {M}{r^{2}}}$ .

Here G is the gravitational constant, G = 6.67428×10^-11 Nm²/kg², ${\vec {r}}$ is the position vector in the field, relative to the point mass M, and has a magnitude r.

@@ Line 1: / Line 1: @@
-Considering a body with the mass ''M'' as a source of a gravitational field, the strength of that field, or the
+Under Newtonian gravity, the gravitational field strength, or gravitational acceleration, due to a point mass ''M'' is given by <math>\vec g = -G \frac{M}{r^2} \frac{\vec{r}}{r}</math>.
-gravitational acceleration, is given by <math>\vec g = -G \frac{M}{r^2} \frac{\vec{r}}{r}</math>.
+The modulus of ''g'' is <math>|g| = G \frac{M}{r^2}</math>.
-The modulus of ''g'' is <math>g = G \frac{M}{r^2}</math>.
-Here ''G'' is the gravitational constant, ''G'' = 6.67428&times;10<sup>-11</sup> Nm<sup>2</sup>/kg<sup>2</sup>, ''r'' is the distance between a body of mass ''m'' and the center of the gravitational field, <math>\vec r</math> is the vector radius of that body having the mass ''m''.
+Here ''G'' is the gravitational constant, ''G'' = 6.67428&times;10<sup>-11</sup> Nm<sup>2</sup>/kg<sup>2</sup>, <math>\vec r</math> is the position vector in the field, relative to the point mass ''M'', and has a magnitude ''r''.
-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.
-[[Image:OblateSpheroidAngles.png]]
-A normal section (on the equatorial plane) is almost an ellipse, so, ''r'' can be done by:
-<math>r = \sqrt{{r_e}^2 cos^2 \theta + {r_p}^2 sin^2 \theta}</math>
-where ''r<sub>e</sub>'' and ''r<sub>p</sub>'' are the equatorial radius and polar radius, respectively and ''θ'' is the latitude, or
-the angle made by ''r'' with the equatorial plane.
-References
-. V. Dorobantu and Simona Pretorian, Physics between fear and respect, Vol. 3, Edited by Politehnica                                          Timisoara, 2007, ISBN 978-973-625-493-2

Acceleration due to gravity: Difference between revisions

Revision as of 16:57, 24 February 2008

Navigation menu

Search