The Three Anomalies

The three anomalies In the last section we showed that the orbits are ellipses following the equation (21) In this equation is the angle of the semi-major axes with the ordinate, is called the true anomaly. The angle is also commonly denoted by . One focus sits at the origin of the coordinate system. The earth is presumed to be at this focus. The perigee is the point on the ellipse closest to this focus, the apogee, the point which is farthest. The true anomaly is the angle between a point on the ellipse and the perigee. Often where is the semi-major and is replaced by the semi-minor axis. It is often more useful to consider an ellipse in a coordinate system whose origin is at the center of the ellipse. The eccentric anomaly of a point on the ellipse is the angle shown in the picture below. Figure 2: The relation between the true anomaly and the eccentric anomaly We will next derive the connections between true anomaly and eccentric anomaly. Either angle can be used to describe the properties of an ellipse. In the above illustration, the point has coordinates and the true anomaly. The distance between the center Therefore, the -coordinate of the center is point can be computed using For the -coordinate we observe: or to get: and the focus . The , where is is given by -coordinate of the i.e. To continue we see that Hence, To continue, we apply the double angle formula in the equation for Combining this with the equation for in terms of to get we get In the same way we get Combining these we have (22) A relation between the true and the eccentric anomaly. The final angular measure to compute is the mean anomaly . To do this we note that the satellite does not move with a constant angular velocity. If it were moving at a constant velocity then Assuming that is the time at which the satellite moves through the perigee, the mean anomaly at time is the angle The mean anomaly is specifically nice since it is a geometric quantity which is directly proportional to the time. To get the position of the satellite at a given time we need to compute either the eccentric or the true anomaly from the time. This relationship is called Kepler's equation.