NATIONAL AERONAUTICS AND SPACE ADMINISTRATION TECHNICAL NOTE D-325 AN ANALYTICAL METHOD FOR STUDYING THE LATERAL MOTION OF ATMOSPHERE ENTRY VEHICLES

I TT Declassified and Approved For Release 2013/11/21 : CIA-RDP71600265R000200130003-2 NATIONAL AERONAUTICS AND SPACE ADMINISTRATION TECHNICAL NOTE D-325 AN ANALYTICAL METHOD FOR STUDYING THE LATERAL MOTION OF ATMOSPHERE ENTRY VEHICLES By Robert E. Slye SUMMARY An analytical method for studying the lateral motion of entry vehicles is presented. The method is applicable for small entry angles and results obtained with the method are compared with results from numerical integra- tion of the complete equations of motion. The method is found useful for studying maneuvers of vehicles'with aerodynamic lift-drag ratios up to about 1.5. Thus, the method should be useful for vehicles of current practical interest. It is found that bank angles of about 45? are sufficient to utilize the near maximum lateral-range potential of a vehicle without overly penalizing entry heating effects. kid INTRODUCTION Many authors have investigated the motion and heating of vehicles entering the earth's atmosphere (see, e.g., refs. 1, 2, 3). In these investigations, the effects of vehicle aerodynamic and mass characteris- tics ? tics on entry heating, deceleration, and range have been studied, and several convenient 'and useful simplified methods for analyzing entry tra- jectories have been developed. Primarily, attention has been devoted to the trajectories of entry vehicles which do not maneuver laterally. How- ever, for the purposes of recovery or landing of the entry vehicle at a specified point on the earth's surface, the vehicle should be able to maneuver laterally. In fact, the lateral range of a vehicle during entry may be as important as the longitudinal range. The objective of the present paper is to develop approximate analytical methods which are useful for studying the lateral motion of entry vehicles. SYMBOLS vehicle reference area bo' CD drag coefficient drag 1 ' Declassified and Approved For Release 2013/11/21 : CIA-RDP71600265R000200130003-2 Declassified and Approved For Release 2013/11/21 : CIA-RDP71600265R000200130003-2 2 resultant deceleration in g' s local acceleration of gravity total heat vertical componentof lift lateral displacement mass of vehicle distance from the center of the earth ro radius of the earth distance along the flight path time velocity Vs local circular satellite velocity normalized velocity, v'Til longitudinal displacement side force vehicle lift-drag ratio in an unbanked attitude 0 logarithmic rate of decay of density with altitude 7 flight-path angle with respect to local horizontal side-force parameter air density On function defined by equation (l4) roll angle lateral deflection angle Declassified and Approved For Release 2013/11/21 : CIA-RDP71600265R000200130003-2 A 3 7 9 0 Declassified and Approved For Release 2013/11/21 : CIA-RDP71600265R000200130003-2 3 Subscripts entry conditions conditions at initiation of maneuver ANALYSIS Equations of Motion A The equations of motion for a lifting vehicle in unpowered flight 3 are given as 7 9 cfr ..,-diflic : (WI fr mV -- = -D - mg sin y dV Op - AC1+ if ii 45 ? ds H:-.4*-: 0 "PIS = Vdr = ell mV2 Ili = L ds i (2) - m cos 7 g - 15) \ r mv2 dir = y (3) ds In this coordinate system, the drag, D, is opposite in direction to the instantaneous velocity, the lift, L, lies in the plane containing the center of the earth, and the side force, Y, is normal to L and D. If the side force, Y, is developed by banking the lifting vehicle, then for a vehicle which develops a constant aerodynamic lift-drag ratio of (L/D)0 and for a bank angle T we have L = (I cos p \j510 Y = \D) (I ? sin T D o In general, solution of the above set of equations involves numerical methods. For trajectories suitable for the entry of manned vehicles, that is, trajectories which tend to minimize decelerations and heating rates, the flight path angle, 7, must be restricted to moderate values. .Thus, the usual approximations made to simplify the above equations are 1mg sin 71