Perigee and Apogee of a Conic Section
12-11-2017, 12:59 PM (This post was last modified: 12-11-2017 01:01 PM by Eddie W. Shore.)
Post: #1 Eddie W. Shore Senior Member Posts: 937 Joined: Dec 2013
Perigee and Apogee of a Conic Section
Introduction

The program CONICAP determines three characteristics of a conic section:

Eccentricity:
E = 0, circle
0 < E < 1, ellipse
E = 1, parabola (this case is not covered)
E > 1, hyperbola

Periapsis (Perigee):
The point on the conic section where it is closest to a primary focus (which is designated at one of the two foci F or F’).

Apoapsis (Apogee):
The point on the conic section where it is furthest away from a primary focus. Note for a hyperbola and a parabola, the apogee is ∞.

The inputs are the lengths of the semi-major axis (A) and the semi-minor axis (P). For a hyperbola, input A as negative.

HP Prime Program CONICAP
Code:
 EXPORT CONICAP(A,P) BEGIN // EWS 2017-12-10 // Fundamentals Of Astrodynamics // ABS(A)≥P LOCAL E; E:=√(1-P/A); PRINT(); PRINT("Perigee: "+STRING(A*(1-E))); IF A≥0 THEN PRINT("Apogee: "+STRING(A*(1+E))); END; PRINT("Eccentricity: "+E); IF E==0 THEN PRINT("Circle"); END; IF E>0 AND E<1 THEN PRINT("Ellipse"); END; IF E>1 THEN PRINT("Hyperbola"); END; END;

Examples

A = 8, P = 3 (Ellipse)
Perigee 1.67544467966
Apogee 14.3245553203
Eccentricity 0.790569415042

A = -8, P = 3 (Hyperbola)
Perigee 1.38083151968
Apogee N/A
Eccentricity 1.17260393996

Source:
Roger R. Bate, Donald D. Mueller, Jerry E. White. Fundamentals of Astrodynamics Dover Publications: New York. 1971. ISBN-13: 978-0-486-60061-1
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