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RANGE SAFETY DATA REPORT #+-k5 June 17, 1965 '
RANGE SAFETY DATA FOR SATURN SA-10
BY
G. W. Solmon and E. L. Leonard
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ff 653 July 65
RANGE SAFETY SECTION E'LIGHT MECHANICS BRANCH
FLIGHT EVALUATION AND OPERATIONS STUDIES D I V I S I O N AERO-ASTRODYNAMICS LABORATORY
i
National Aeronaut i c s a n d S p a c e Administration i. e c - Form 454 (Revised September 1961)
https://ntrs.nasa.gov/search.jsp?R=19660023504 2020-05-20T19:18:21+00:00Z
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GEORGE C. MARSHALL SPACE FLIGHT CENTER
Range Safety Data Report #4-65
RANGE SAFETY DATA FOR SATURN SA-10
G. W. Solmon and E.
ABSTRACT 2 7 qY L. Leonard
d66 -3
The purpose of t h i s repor t i s t o present range s a f e t y da ta f o r t he Saturn SA-10 vehicle . standard t r a j e c t o r y t o be published by R-AERO-FM. It has a f i r i n g azimuth of 9 5 . 2 degrees e a s t of t r u e north and goes i n t o o r b i t a t an a l i t u d e of 289 nau t i ca l m i l e s . The standard and dispers ions have been provided on magnetic tape.
This study i s based on the
One of the primary object ives f o r t h e SA-10 vehic le i s t o place the Pegasus (Micrometeoroid) sa te l l i te i n t o a c i r c u l a r o r b i t . Other primary vehic le object ives are the fu r the r f l i g h t t e s t i n g of t he S-I and S-IV s t r u c t u r e , pro- pulsion, cont ro l systems, s.-I/S-IV separa t ion sequence, and closed loop guidance during S-IV f l i g h t . vehic le objec t ives are t o obtain Apollo b o i l e r p l a t e da t a , fu r the r tests of the Launch Escape System (LES), and general Apollo development.
Additional
The r e l i a b i l i t y analysis of t he S-IV-8 and S-IV-10 s tages w a s performed by Douglas Ai rc ra f t , and i s presented i n the Appendix.
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GEORGE C . MARSHALL SPACE FLIGHT CENTER
R a n g e Safety Data Report #4-65
June 17, 1965
RANGE SAFETY DATA FOR SATURN SA-10
by
G . W. Solmon and E. L. Leonard
RANGE SAFETY SECTION FLIGHT MECHANICS bm%H
FLIGHT EVALUATION AND OPERATIONS STUDIES D I V I S I O N AERO-ASTRODYNAMICS LABORATORY
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(U) TABLE OF CONTENTS
Page
2
G
I. INTRODUCTION. . . . . . . . . . . . . . . . . . . . . . 11. DESCRIPTION . e . . - - . 2
A. B. C. D. E. F. G. H. I. J. K.
Standard Trajectory Variations . . . . . . . . . . . 2 Effec ts of Range Safety F l igh t Termination . . . . . 3 Tracking Equipment . . . . . . . . . . . . . . . . . 4 Wind Disturbances . . . . . . . . . . . . . . . . . . 5 Vehicle Velocity Vector Turning Angle Inves t iga t ion . 5 Downrange Land Impact Probabi l i ty . . . . . . . . . . 6 Probabi l i ty of In jur ing a Person . . . . . . . . . . 7 Sequence of Events . . . . . . . . . . . . . . . . . . 10 Booster Impact 11 LES Impact 12 PAD Area Study . . . . . . . . . . . . . . . . . . . . 12
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
APPENDIX........................... 13
VACUUM IME'ACT DATA . . . . . . . . . . . . . . . . . . . . . 43
I L L u S ~ I O N s . . . . . . . . . . . . . . . . . . . . . . . . 49
REFERENCES . . . . . . . . . . . . . . . . . . . . 177
APPROVAL . . . . . . . . . . . . . . . . . . . . . . . . . 178
DISTRIBUTION . . . . . . . . . . . . . . . . . . . . . . . . 179
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(U) LIST OF ILLUSTRATIONS
T i t l e Page . FiPure
. . . . . . . . . . . . . . . . . . . . 1 Wind P r o f i l e 50
2 Drag Coeff ic ien t fo r Complete 1st Stage Configuration 52
3 Drag Coeff ic ien t f o r S-I Stage . . . . . . . . . . . 53
5 Drag Coeff ic ient f o r 4-Engine Clus te r . . . . . . . . 55
4 Drag Coeff ic ient f o r S-IV Stage . . . . . . . . . . . 54
6 Drag Coeff ic ient f o r S ingle Engine . . . . . . . . . 56
7 Drag Coeff ic ien t f o r Instrument Unit . . . . . . . 8 Drag Coeff ic ient f o r Fragments . . . . . . . . . . 9 Drag Coeff ic ien t f o r LES . . . . . . . . . . . . .
10 Drag Coeff ic ien t fo r Command Module Without LES . . 11 Drag Coeff ic ien t f o r Camera Capsule . . . . . . . 1 2 Drag Coeff ic ien t fo r Fuel Tank . . . . . . . . . 13 Drag Coeff ic ient f o r Turbo Pump Assembly . . . . . 14 Drag Coeff ic ien t f o r Spherical Pieces of S-IV Stage
57
58
59
60
61
62
63
64 15 Drag Coeff ic ien t f o r S- IV Stage (Not Tumbling) . . . 65
16 Impact Trace Including Corridors . . . . . . . . . . 66
17 Booster Impact Dispersion . . . . . . . . . . . . . 67 18 LES Impact Dispersion . . . . . . . . . . . . . . . . 68
19-72 Change i n Tota l Velocity Vector Or ien ta t ion f o r (-f3 ). s t a r t i n g a t 16 sec and given every 4 sec through 1sY stage. every 20 s e c through 2nd s t a g e . . . . . . . . 69
73-126 Earth-Fixed Velocity fo r (.By). s t a r t i n g a t 16 sec and given every 4 sec through 1st s tage . every 20 sec through 2nd s t age . . . . . . . . . . . . . . . . . . 123
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kti (meters/sec)
F (newtons)
(U) DEFINITION OF SYMBOLS
Definition
Time of engine cutoff
Angle of attack
Magnitudes of the components of the missile's displacement in the earth-fixed X, Y, Z axis, respectively.
Magnitudes of the components of the missile's velocity in the earth-fixed X, Y, Z axis, respectively.
Thrust, including gain due to altitude
Angle measured between the local vertical and the velocity vector (theta)
Aiming azimuth of the missile measured clockwise from North
Pitch attitude angle as measured by missile hardware (chi)
Mass of vehicle
Dynamic Pressure
Density of the air, a function of altitude
Velocity of missile relative to the earth
Mach number
L-ngftiirlinal lnad factor
A1 t I t ude
Arc tan DZZe/
Arc tan DYYe/DXXe
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V
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f .. .
GEORGE C. MARSHALL SPACE F'LIGHT CENTW
RANGE SAFFlly DATA FOR SATURN SA-10
The da ta presented i n t h i s report are f o r t h e Saturn SA-10 vehic le , wi th a f i r i n g azimuth of 95.2 degrees east of t r u e north.
This r epor t is based on a standard t r a j e c t o r y t o be published by R-AERO-FM, with o ther p e r t i n e n t information furnished by R-P&VE and Douglas A i r c r a f t Campany.
The da ta submitted cons is t s of boos te r and Launch Escape System impact areas, e f f e c t s of range s a f e t y terminat ion, land impact p r o b a b i l i t i e s , i n j u r y p r o b a b i l i t i e s , and turning rate e f f e c t s . Graphs of tu rn ing rates and ear th-f ixed ve loc i ty as a func t ion of t i m e , after malfunction is introduced, are given f o r t he S-I and S-N s tages .
Data cons i s t ing of standard, 2 3 Q dispers ions , and booster f r e e f l i g h t t r a j e c t o r i e s have been forwarded t o the C a p e on magnetic tape as requested by Range Safety.
The i t e r a t i v e guidance w a s used i n t h e second s tages f o r the standard and - + 3 u dispers ion t r a j e c t o r i e s .
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SECTION I. INTRODUCTION
The purpose of t h i s repor t i s t o present range s a f e t y da t a f o r Saturn SA-10 vehicle . f i n a l standard t r a j e c t o r y t o be published by R-AERO-FM.
The da ta presented he re in are based on t h e
The engines t o be used fo r t he f i r s t s t age i n Saturn SA-10 have a sea l eve l th rus t of 188,000 pounds (836,000 newtons) each. inner four engines have a f ixed cant angle of 3" t o the missile ax i s . The outer engines, which a r e f r e e t o swivel f o r con t ro l , a r e canted 6" t o t h e missile ax is . The second s t age has s i x R L - 1 O A 3 engines which have a vacuum t h r u s t of 15,000 pounds (66,700 newtons) each.
The
This report was based on the t r a j e c t o r y having an aiming azimuth of 95.2 degrees East-of-North with an i n s e r t i o n a l t i t u d e of 535 ki lometers .
SECTION 11. DESCRIPTION
A. Standard Tra jec tory Variat ions
The va r i a t ions of t he standard t r a j e c t o r y are l i s t e d below:
(1) 3 4 Maximum +2% F, +1% i , + E x Wind, -3,500 lbm i n 1st Stage F, +1% r R , - l , O O O lbm i n 2nd Stage 7 , -1% i, -E Wind, +3,500 lbm i n 1st Stag
-1% A, +lo08 lbm i n 2nd Stage ( 2 ) 3 ,.( Minimum
(3) 3 T La te ra l +Ez Wind, Motor #4 out a t 100 sec i n 1st Stage c No crossrange guidance i n 2nd Stage
(4 ) Extreme La te ra l &Ez Wind, Motor 114 out a t 0 s e c .
(5) Steepest 1+2% - F, +I% h, Headwind, -3,500 lbm]
(6) F l a t t e s t h o t o r 414 out a t 0 s e c , Ta i lw ing
, .-
In addi t ion t o impacts given every second on t h e Cape Tape, impacts w i l l b e given i n t abu la r form every 20 seconds u n t i l near o r b i t a l condi t ions, t h e r e a f t e r , a t 1 second i n t e r v a l s f o r t he s tandard, 3 ~ - maximum, and 3 6 minimum. i n the tab les : instantaneous cu tof f time, geodet ic l a t i t u d e , longi tude, remaining f l i g h t t ime, and range along the su r face of t he e a r t h from launch t o impact.
The following parameters w i l l be given
Tables a r e on pages 43-48.
.
I ..
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B. (U) Effects of Range Safety Flight Termination
I f the vehicle, for purposes of range safety, i s t o be destroyed i n ear ly f l i g h t phase, the most probable pieces, according t o P&VE and DAC, are considered t o be the follawi&:
Mass A!!&
(a) S-I Stage (1) 54,940 (b) S-IV Stage (1) 6,271 (c) 4-Engine C lus t e r (1) 2,818 (d) Single Engine (8) 880 (e) Instrument Canister (1) 228 ( f ) Fragment of S-I Barrel 227
(g) Fragment of S-I Tail 136
34
(2) - (1) 1,285 (j) Camuand Module Without 4,203
(k) Fragment of S-I Barrel 23
(1) 70" Diameter Tank 1,768 (m) Turbopump Assembly 181
*(n) Forwaxd Inters tage Skin 134
Sectitm (2)
Shroud (2)
Shield (2) (h) Fragment of S-I Heat
LES
Sections (1)
( 0 ) Forward Dame Skin 453 (p) Cylindrical Tank Skin 97 (q) Cammn Bulkhead 244 (r) A f t Interstage and Sk i r t
( 8 ) Upper Portion of Aft Dame (t) Lower Portion of A f t Dome
151
37 116
Skin
Area (sq. m)
33.47 (cs) 24.52 (cs) 4.26 (m) 1.12 (m) 1.03 (cs) 3.68. (PI
-68 (PI
-18 (PI
.34 (cs) 12.02 (cs)
040 (PI
5.06 (cs)
7.90 (PI
2.48 (cs)
17.19 (p) 48.77 (p)
19.97 (p) 17.19 (p)
3.25 (PI 15.79 (p)
Velocity Increment
(m/sec)
2.0 2.0 9.0 7.2 7.0
95.1
29.6
30.5
9.0 9.0
. 95 .0
30.0 9.0
141.0 66.0 95.0 80.0
125 .O
105.0 140.0
mag Curve t o be used
Figure # 3 4 5 6 7 8
8
8
9 10
8
12 13 8 8 8 8 8
8 8
NOTE: Figure i n parenthesis a f t e r (a) through (i) indicates number of
cs - cross sectibnal; m- mean; p - planiform pieces.
For the maximum and minimum distance pieces, the approximate drag can be calculated as D = CDqA. The CD curves are given i n Figures 3 - 13.
*Pieces (n) through (t) are representative pieces given by DAC for the s-I\' stzgz. (see !+pedi,x.)
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C. (U) Tracking Equipment
SA-10 has the following onboard antenna locations :
VHF Telemetry Antenna Sta. 909.929
S-I Stage 5.75' II+I 5.75' IIjIII 5.75" IVJIII 5.75O IV+I
VHF Telemetry Antenna Sta. 1483.084
IU Stage 5'10' II+III 5'10' IV I
Command Antenna Sta. 868.6 S-I Stage
5'30' I+IV , 5O30' IjII 5'30' IIIjII 5'30' III+IV
Command Aht enna IU Sta. 1471.889 28"07'30" I+IV
28 "07 ' 30'' IIIj'II
ODOP Receiving Antenna S ta . 1483.424 33O45' IjIV
ODOP Transmitting Antenna Sta. 1483.424
33"45' IV+I
Altimeter Antenna Sta. 1474.414
Fin I
MISTRAM Antenna Sta. 1467.934
11'15' IVjI 4'38'30'' IV jIII
Command Antenna System Sta. 1384.157
Fins I1 & IV (Transverse) Fins I & I11 (Longitudinal)
Telemetry Antenna System Sta. 1423.092
S-IV Stage Fins I & I11 (Transverse) Fins I1 & IV (Longitudinal)
Television Antenna Sta. 872.459
2'40' IV-I
Radar Antenna Sta. 1466.596
39"22'30'' IjIV
Azusa Antenna Sta. 1475.721
11'14' IeIV
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D. (U) Wind Disturbances
For t h i s ana lys i s , the winds considered a r e the 3 cs winds published by W. W. Vaughan, M-AERO-F-53-63, "Cape Canaveral, Flor ida, Wind P r o f i l e Envelopes f o r Selected F l ight Azimuth," March 28, 1963. (See Figure 1.)
E. (U) Vehicle Velocity Turning Angle Inves t iga t ion
The vehic le ve loc i ty vector turning da ta for t h e standard is presented i n Figures 19-72. These f igures give the r eo r i en ta t ion of the t o t a l ve loc i ty vector i n the l a t e r a l d i r ec t ion as a funct ion of t i m e once the malfunction (engine gimbal def lec t ion) i n yaw is introduced.
In the pas t , an inves t iga t ion w a s made of t he r eo r i en ta t ion of t h e ve loc i ty vector i n the v e r t i c a l plane (&, Ye). a t t h e time the malfunction (engine gimbal def lec t ion) was introduced i n pi tch. Under these conditions, t he re i s no s i g n i f i c a n t d i f fe rence i n . turning r a t e s i n the la te r ' a l d i r ec t ion and the p i t ch plane; thus , only l a t e r a l turning r a t e s a r e given. The l a t e r a l tu rn ing r a t e s a r e synnnetrical; hence, the vehic le was only yawed t o the r i g h t .
Gravity was removed
When yaw turning r a t e s a r e inves t iga ted , t he engine gimbal . def l ec t ion angle i n p i t ch (beta p) is set a t zero degrees def lec t ion . The yaw malfunction chosen i s held f ixed throughout any s p e c i f i c inves t iga t ion . t r a j e c t o r i e s given on tape by use of t he following time equivalent r e l a t i o n s .
These turning r a t e s can be t r ans l a t ed t o the 23 (J
Standard Trajectory, Maximum Trajectory , Minimum Trajectory, Time of Turning Time of Turning Time of Turning
Rate (sec) Rate (sec) Rate (sec)
30 80
130 190 4 1.0
29 76
126 190 410
32 83
133 190 410
The r e l a t i v e ve loc i ty of the turning r a t e cases is given as a funct ion of time in Figures 73-126.
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F. (U) Downrange Land Impact Probabi l i ty
S t a t i s t i c a l da ta i n regard t o impact r e s u l t i n g from malfunctions which occur during the l a t e phase of t h e second s t age i s presented. For these calculat ions, . it was assumed t h a t f i r s t s t age functioned properly and t h a t second s t age f a i l e d t o reach o r b i t a l condi t ions. It was assumed t h a t t h e p robab i l i t y of t he veh ic l e dropping s h o r t i s approximately .13 f o r the second s t age ; t h i s is based on da ta given i n Appendix 1 The instantaneous impact t i m e ( a t ) over land on the95.2" s tandard t r a j e c t o r y i s approximately 4.9 s e c .
by DAC f o r the S-IV s t age .
A 3 0 corr idor was determined f o r the overland f l i g h t (Figure 1 6 ) impacting the veh ic l e by taking the root sum square of t h e following:
a f t e r i t turned with a maximum rate u n t i l alpha yaw had reached 180"; impacting the 30 taking the most c r i t i c a l p iece , i n j e c t i n g a +E, wind and the v e l o c i t y increment i n t h e +Z d i r e c t i o n and impacting the piece.* a r e shown i n t h e t a b l e below.
l a t e r a l case; assuming t h a t t he veh ic l e had exploded,
These r e s u l t s
WIDTH OF RIGHT SIDE OF 3 u CORRIDOR I N N. M I . Turning Rates Wind + AVeloc i ty Motor #4 out 100 s e c Resul tant
(Vacuum) (Drag Considered) (Vacuum) For Right Right S i d e Right Side Right Side Side
20 55 10 59.4
Cross Range (n.mi.) Cross Range (n.mi.) Cross Range (n.mi.) (RCR)
*Piece ( 0 ) i n paragraph B.
The probabi l i ty of impacting on land can be ca l cu la t ed as follows:
-
PI - probabi l i ty of impacting on land
A t - dwell time
TB - t o t a l burn t i m e of second s t age
PF probabi l i ty of any f a i l u r e causing t h e 2nd s t a g e t o drop s h o r t
PI = 4.9 - x .13 = 1.3 x 10-3 480.1
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b
7
I C
'p
c
Impact probabi l i t ies f o r individual countries are as follows :
Land Area Dwell Time &pact Probabili ty
Angola 2.8 7.6 X 10-
Rhodesia and Nyasaland 1.5 4.1 X 10-
4
Bechuanland
Bzambique
.1
.3
2.6 X
8.1 X 10'
5.3 x 10'. Madqascar .2
G. Probabili ty of Injuring a Person
The probabili ty of injur ing a person downrange can be determined i n the following manner:
'IP - probabili ty of injuring person
- - population density of country (people per sq. m i . ) L
- lethal area (sq. I$.)
Based on Appendix by Douglas, the S-IV stage has approximately 3,000 sq. f t . of lethal area. contributed by the piepe fallins a t en t h e projected l e t h a l e f f e c t on a person.
This includes the addi t ional area ~f 1" t~ -:=r+-lsdl ~2
A sample calculation: Forward Inters tage Assembly: A = 185 f t z ;
Nuder of pieces = 8 A = 185 = 23.12 Pieces 3-
Assuming this piece t o be square, one s ide = 23.12 = 4.808 f t .
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Assume an average man i s 6 f t . t a l l and t h i s piece comes i n a t 15" t o the v e r t i c a l . 15" (6 f t . ) (4.808) = 7.7 ft2. by 8 pieces , w e g e t t he t o t a l l e t h a l a rea as 246.5 f t 2 f o r the forward i n t e r s t a g e assembly. Then, i n addi t ion , w e should assume t h a t t h e dense pieces could impact on hard sur faces , giving an estimated s p l a t t e r e f f e c t of an addi t iona l 2,000 sq. f t . Thus, t h e approximate t o t a l l e t h a l area of t h e S-IV-10 s t age i s conservat ively estimated t o be 5,000 sq. f t .
The l e t h a l area of t h i s piece i s increased by tan. Adding t h i s t o 23.12 f t 2 and multiplying
The probabi l i ty of i n ju r ing a person by overf lying land i s :
PIP = .0013 X 20 X 5 * O o o = 4.7 x 10-6 27,878,400
Probabi l i ty of i n ju r ing Person f o r ind iv idua l countr ies : (3 /devia t ion) (Sectors 1 and 2 , Figure 16)
L
Country
Ango la
Rhodesia & Nyasaland
Bechvanaland
Mozambique
Madagascar
Disregarding hardware
N LA
AL -
Pr ob ab i li t y (People per of In jur ing
sq. mi , . ) a Person P,
7. 6X10'4 25 3.4 x 10-6
2.61~10'~ 1 4.7 x 10-9
5 .3x10-~ 2 1 2.0 x
4 .1~10-4 12 8.8 X 10-7
5 . ~ 1 0 ' ~ 25 3.6 X 10-7
l imi t a t ions and t h e l ike l ihood of occurence, i t was desired t o determine t h e absolu te maximum lateral devia t ion t h a t could be obtained from a malfunction t h a t could occur a f t e r reaching t h e "gate" ( I I P reaches land) . yaw ( @ y ) t o t h e l e f t and a l s o have a v a r i a t i o n i n t h e p i t c h ( @ p ) plane. condi t ions, t h e following impacts a r e obtained.
The veh ic l e w a s assumed t o instantaneously
If we assume f u e l deple t ion with these maximum devia t ion
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9
t
r
Variations I m p a c e
C a s e - Geodetic Latitude
@P ec, Longitude
1 5 -70 -16.1 -34.4
2 5 -80 -6.7 -14.2
3 -5 -70 -16.3 -35 .o
4 -5 -80 -10.8 -22.3
5 - 15 - 70 -14.0 -30.0
These are sketched i n Figure16. probabi l i t i es , we have the following impact and injury probabi l i ty in sectors 3 and 4.
Then, i n addition t o the above
- N Probability of LA Injuring a Person PI - Country
Ango l a 1.9 x 25 8.5 x IO-'
South West Africa 9.1 x 24 2.9 x Union South Africa 3.3 x 24 1.4 x
Basu t o land 1.1 x 50 9.9 x 10-l0
Bechvanaland 7.0 x 1 1.3 X 10-l'
Mozamb i que 2.2 x lom7 17 6.7 X 10-l' - 10 Madagascar 1.3 x 25 5.8 X 10
Rhodesia & Nyasaland 1.0 x 12 2.2 x IO-'
The probabili ty of impacting outside of sectors 3 and 4 in Figure is Zero with the present propellant loading and range safe ty act ion
being taken before the T h i c l e reaches the "gate."
*Based on superimposed corridor from SA-8.
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10
H. Sequence of Events
Given below a r e the times t h a t the major events occur during t h e nominal case:
Nominal Sequence of Events
Time of Event (From L i f t o f f )
0.0
9 .o
14.2
137.7
138.0
141.7
143.52
149.52
150.22
150.32
152.02
162.32
168.0
595 .O
632.085
642.085
Remarks
L i f t o f f
I n i t i a t e Rol l and Pi tch Simultaneously
Terminate Rol l
S- I Stage Propel lant Level Sensors Enabled
T i l t Arrest
S-I Stage Level Sensor S igna l
Inboard Cutoff (S-I Stage)
Outboard Cutoff (S-I Stage)
Ullage Rocket Ignition(S-IV Stage)
Separat ion, Immediately Followed by Retro Ign i t ion (S-I Stage)
S-IV Mainstage I g n i t i o n
J e t t i s o n Ullage Rocket Casing and LES
I n i t i a t e Active Guidance
Signal from Sequencer t o Arm LOX Depletion Cutoff Capabi l i ty
S-IV Stage Main Engine Cutoff
End of Powered F l i g h t
Y
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t I
f
11
I. Booster Impact
Further cursory investigation by R-P&VE-V on the re-entry of the S-I boost s tage a f t e r separation confirms tha t the major pieces o f s i t w i l l remain i n t a c t as it re-enters the atmosphere. it i s possible for t h in metal pieces (panels, etc.) weighing less than 50 lbm t o break loose from the S-I stage upon re-entry. the following booster impact analysis has been performed.
However, they s t a t e
Based on t h i s ,
The booster and a representative piece as described ( th in metal piece) were impacted. .The applicable drag w a s used for the t r a j ac to r i e s and the appropriate winds w e r e applied. the impact dispersion points, which are as follows:
Figure 17 gives an e l l i p s e of -
Booster
Traiectory
Standard
Latitude
27.2019
Maximum 27.0480
Minimum 27.3036
3 u Lateral 26.9707
Standard
Maximum
Minimum
3 0 Lateral
50 lbm Barrel Section
27.2100
27.0742
27.3388
26.9380
Longitude
70.7510
69.9469
71.2720
71.2810
70.7923
20.0439
71.5496
71.4710
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12
J. LES Impact
An ana lys i s concerning LES impact has been performed and Figure 17 gives t h e e l l i p s e . w a s e j ec t ed 10.3 seconds a f t e r i g n i t i o n of t h e S-IV-10 s t a g e from t h e & 3 dispers ion t r a j e c t o r i e s given on magnetic tape. The impacts were as follows :
The e l l ipse w a s determined as follows. The LES
. Trajec tory Lat i tude Longitude
Standard 26.9446 69.3584
3 a Maximum 26.7964 68.6319
3 u Minimum 27.0937 70.0891
3 u L a t e r a l 26.7359 70.1045
K. Pad Area Study
For t h i s s tudy the e f f e c t s of Vehicle tu rn ing rates, v e l o c i t y increment due t o des t ruc t and a wind from 67.5" E of N w e r e combined t o give t h e maximum devia t ion toward t h e i n d u s t r i a l a rea . t h i s s tudy ind ica t e that , t o avoid any impact of m a x i m u m d i s t ance p ieces due t o des t ruc t , on c r i t i c a l a r eas , t h e wind p r o f i l e given i n Figure 1-A should not be exeeded. The p robab i l i t y of t h e 67.5" E of N wind, exceeding the p r o f i l e given i n Figure l - A i s l e s s than 10% based on R-AERO-Y's wind p r o f i l e f o r the month of August. '
The r e s u l t s of
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13
A P P E N D I X
.
c
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I 14
SECTION 4 - RANGE SAFETY FLIGHT TERMINATION SYSTEM
i
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u Sec t ion 4
Range S a f e t y F l i g h t Termination S y s t e m
4.
c
&
e
RANGE SAFETY FLIGHT TERMINATION SYSTEM -
4.1 .Descr ip t ion and Function
"he RSFT (range s a f e t y flight t e rmina t ion ) system ( f i g u r e s 4-1 and 4-21, ( e l e c t r i c a l and ordnance), is a dual system which provides a high degree of
r e l i a b i l i t y .
and causing fuel d i spe r s ion i n t h e event of e r r a t i c performance of t h e
veh ic l e .
Each system is capable of imposing a cond i t ion of . ze ro t h rus t ,
I n a d d i t i o n t o various antenna systems and w i r e bundles , t h e RSFT
system c o n s i s t s of t h e following major components:
a. Power s u p p l i e s
b.
C.
a. e. f.
g-
h.
i.
Command d e s t r u c t r e c e i v e r s
RSFT system c o n t r o l l e r
Power d i s t r i b u t i o n boxes
EBW e l e c t r o n i c f i r i n g u n i t s
Sa fe ty and arming device
E B W detonators
Explosive harness assemblies
Linear shaped charges
Refer t o Sec t ion 3, Explosive Ordnance and Assoc ia ted E l e c t r i c a l Systems,
f o r d e s c r i p t i o n and func t ion of t h e aforementioned items.
The or'dnance p o r t i o n of t h e system c o n s i s t s of E B W de tona to r s ,
explos ive harness assembl ies , and l i n e a r shaped charges. The de tona tors , through t h e s a f e t y and arming device, de tona te small charges i n t h e ends of
t h e explos ive harness assemblies. The harness assemblies propagate t h e
de tona t ion t o t h e l i n e a r shaped charges mounted on t h e side of t h e M 2 tank
and t h e bottom of t h e LOX tank .
+%nkc, Ellnving +.he Frope l l an t s t o d i spe r se . I n a d d i t i o n , an explos ive
Exploding t h e shaped charges rup tu res t h e
harness in t e r sonnec t ion i s provided between t h e d e s t r u c t systems of t h e S-I
and S-IV s t a g e s .
t h e exp los ive in t e rconnec t ion blocks.
The RSFT e l e c t r i c a l c i r c u i t r y is loca ted i n t h e forward s e c t i o n of t h e S-IV
stage and c o n s i s t s of t h e power supp l i e s , d e s t r u c t -system c o n t r o l l e r , power
d i s t r i b u t i o n box and t h e EBW e l e c t r o n i c f i r i n g u n i t s . A s e p a r a t e c i r c u i t
c o n t r o l l e d from t h e ground permi ts swi tch ing the s a f e t y and arming device
This i n t e rconnec t ion i s s i n g u l a r on the . S-I s t a g e s i d e of
Prijiii GEE p ~ ~ l t l ~ ~ tc z z ~ t h e r .
19 April 1967
91
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16 Sec t ion 4 Range Safety F l i g h t Termination System
Accidental de tona t ion of t h e l i n e a r shaped charges during p r e f l i g h t cnecIEouz
ope ra t ions on t h e launch pad i s prevented f o r most of t h e t i m e by t h e s a f e t y
and' arming device which maintains an out of l i n e condi t ion i n t h e explosive
t r a i n s .
i s r e l ega ted t o t h e launch pad and i s switched t o t h e arm condi t ion j u s t before l i f t o f f , b u t i s monitored both e l e c t r i c a l l y and v i s u a l l y on, a panel
i n t h e blockhouse. The f i r i n g units are charged only af ter launch i n t h e
event of a dec i s ion t o i n i t i a t e f l i g h t t e rmina t ion ,
However, t h e switching funct ion of t h e device which i s s i n g u l a r ,
4.2 Operation
4.2.1
The EBW e l e c t r o n i c f i r i n g u n i t s ( 2 ) w i l l not be charged on 'the ground.
"not ready" cond i t ion of t h e f i r i n g u n i t s w i l l be i n d i c a t e d on t h e S-IV,
stage d e s t r u c t panel ( f i g u r e 4-3). The s a f e t y and arming device w i l l be
cycled t o the armed p o s i t i o n approximately 3 minutes p r i o r t o l i f t o f f and
t h e condi t ions v e r i f i e d on t h e S-IV d e s t r u c t pane l .
F ina l Arming P r i o r t o Launch
A
4.2.2 Arming A f t e r Launch
If af ter l i f t o f f , t h e veh ic l e dev ia t e s from t h e p r e d i c t e d f l i g h t path t o t h e
e x t e n t t h a t a hazardous condi t ion e x i s t s , t h e RSFT system i n t h e S-IV s t a g e
d e l i v e r s t he r equ i r ed f l i g h t t e rmina t ion command by decoding frequency-
modulated s i g n a l s received from a ground t r a n s m i t t e r . These UHF s i g n a l s a r e
r ece ived by t h e S-IV s t a g e antenna system, provides omnidirect ional coverage
about t h e veh ic l e r ega rd le s s of i t s a t t i t u d e . Two comman'd d e s t r u c t r e c e i v e r s
are l o c a t e d i n t h e forward i n t e r s t a g e area of t h e S-IV s t a g e . Each r e c e i v e r
r e l a y s a s i g n a l t o t h e S-IV s t a g e d e s t r u c t system c o n t r o l l e r . The s i g n a l
from e i t h e r r e c e i v e r i s capable of a c t i v a t i n g t h e c o n t r o l l e r f o r t h e
detonat ion of t h e l i n e a r shaped charges.
4.2.3 Range S a f e t y F l i g h t Termination
Range safety f l i g h t t e rmina t ion i s i n i t i a t e d ' by t h e range s a f e t y oft'icei- i t '
a f te r l i f t o f f , t h e veh ic l e dev ia t e s from t h e p r e d i c t e d f l i g h t path to tlie
e x t e n t t h a t a hazardous cond i t ion e x i s t s . The fol lowing sequence i s
i n i t i a t e d by c l o s i n g t h e d e s t r u c t switch i n t h e launch c o n t r o l c e n t e r :
92
19 A p r i l 1965
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17 Sect ion 4
Range Safe ty F l i g h t Termination System I
a. me command t r a n s m i t t e r sends an FM, audio-coded s i g n a l t o t h e
veh ic l e .
b. The r ece iv ing antennas t r a n s f e r t h e s i g n a l t o t h e command d e s t r u c t
r ece ive r .
c . The cormnand d e s t r u c t r e c e i v e r demodulates and decodes t h e s i g n a l ;
t h e commands are f ed t o t h e command d e s t r u c t c o n t r o l l e r .
d. The command d e s t r u c t c o n t r o l l e r i n i t i a t e s engine c u t o f f through t h e
f l i g h t sequeri5er and subsequently t r i g g e r s t h e f i r i n g u n i t s .
e. The f i r i n g u n i t s a c t i v a t e t h e high vol tage de tona tors .
f . The de tona tors explosion is propagated by t h e explos ive harness
assemblies and t h e l i n e a r shaped charges.
shaped charges mounted on t h e ou t s ide of t h e LH2 and LOX tarks,
fup tu res t h e tanks pe rmi t t i ng f u e l d i spers ion .
Explosion o f t h e l i n e a r
t
19 Apr i l 1965
93
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18 Sect ion 4 Range Sa fe ty F l igh t Termination System
n
4
19 A p r i l 1965
Figure 4-1
~~ ~
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19 Section 4
Range Safety Flight Termination System
a zBm I
19 April 1965
Figure 4-2
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20 Sect ion 4 Range Sa fe ty F l igh t Termination System
<
I I
a@k
t
c J
19 April 1965
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21
c
EFFECTS OF W X ; E SAFETY FLIGHT TERMIPJAT1OF.I
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Sect ion ‘5 E f f e c t s of Range Safe ty F l i g h t Termination
22
5 . EFFECTS OF RANGE SAFETY FLIGHT TERMINATION (RSFT)
5 . 1 General
The S-IV s t a g e can be destroyed i n f l i g h t by t h e range s a f e t y f l i g h t
terminat ion (RSFT) system. I n order t o d iscuss t h e d e s t r u c t i v e e f f e c t of
t h e system on t h e s t a g e , t h e s t a g e t o t a l f l i g h t t i m e has been d iv ided i n t o
t h r e e f l i g h t phases (1) before S-11s-IV s e p a r a t i o n , ( 2 ) a f t e r S-I/S-IV
separa t ion with S-IV s t a g e propel lan t tanks n e a r l y f u l l , and
S-11s-IV separa t ion with S-IV s t a g e propel lan t tanks n e a r l y empty.
( 3 ) af ter
5 . 2 Ef fec ts of RSFT Before S tage , Separat ion
I n i t i a t i o n o f RSFT before s t a g e separa t ion w i l l r e s u l t i n one o f t h r e e
s i t u a t i o n s : (1) t h e s t a g e w i l l break up and i t s p r o p e l l a n t s w i l l detonate,
( 2 ) t h e s t a g e w i l l break up but i t s p r o p e l l a n t s w i l l not de tona te , and
( 3 ) t h e s t a g e w i l l not break up.
and t h e propel lan ts w i l l mix and detonate and t h a t breakup w i l l be caused
e i t h e r by aerodynamic l o a d s , tumbling i n e r t i a l l o a d s , o r by forces c r e a t e d
by t h e d e s t r u c t i o n of t h e S-I s t a g e .
s t a g e may break up and not detonate i s considered, as is t h e p o s s i b i l i t y t h a t
t h e s t a g e may not break up a t a l l .
DAC b e l i e v e s t h a t s t a g e breakup w i l l occur
However, t h e p o s s i b i l i t y t h a t t h e
5 . 2 . 1 Stage Breaks Up With Propel lan t Detonation
Breakup of t h e S-IV s t a g e with propel lan t de tona t ion can occur only as a
r e s u l t of S-I s t a g e d e s t r u c t i o n and p r o p e l l a n t explosion. I n t h i s c a s e ,
t h e debr i s f a l l i n g from t h e s t a g e w i l l c o n s i s t of t h e fol lowing p ieces :
( I t i s recommended t h a t f o r range s a f e t y purposes , it be assumed t h a t a l l
debr i s w i l l surv ive re-entry i n t o t h e atmosphere).
a. Skin p ieces (maximum s i z e 10 f t2) o r i g i n a t i n g from t h e s k i n s e c t i o n s
descr ibed i n f i g u r e 5-1 and t a b l e s 5-1 and 5-2.
b . Ind iv idua l RLlOA-3 rocket engines , i n c l u d i n g hydraul ic a c t u a t o r s .
c . Ullage rockets-loaded.
d. Ullage rockets-expended.
e . Helium h e a t e r .
f . Base hea t s h i e l d .
19 A p r i l 1965
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23
c
Section 5 Ef fec t s of Range Sa fe ty F l i g h t Termination
g -
h.
i.
J .
k.
1.
E l e c t r o n i c s rack and u n i t s (1 p i e c e ) l o c a t e d on t h e forward
i n t e r s t a g e assembly.
E lec t ron ic s u n i t s , such as t h e ins t rumenta t ion s i g n a l cond i t ion ing
equipment, l o c a t e d outs ide of t h e t h r u s t s t r u c t u r e .
Thrust s t r u c t u r e ( inc lud ing e l e c t r i c equipment and accesso r i e s
i n s i d e , and t h a t po r t ion of t h e a f t dome t h a t extends below t h e
t h r u s t s t r u c t u r e junc t ion ; exc luding engines , e x t e r n a l e l e c t r o n i c
packages, helium h e a t e r , and c o n t r o l helium sphere ) . Cold helium spheres .
LH2 tank makeup helium sphere.
Pneumatic c o n t r o l helium sphere
It should be emphasized t h a t t h e number of p i eces are es t ima tes only, based
p r imar i ly on d a t a obta ined from vehicles p rev ious ly destroyed i n f l i g h t .
More accu ra t e e s t ima tes can be obtained only by conducting f u l l - s c a l e tests.
5.2.2
If t h e s t a g e breakup does occur without a p r o p e l l a n t de tona t ion , breakup
Would be caused by aerodynamic and tumbling i n e r t i a l loads. The p r o p e l l a n t s
w i l l vaporize a t ambient p re s su re , and temperature and t h e following s k i n
p i eces and components w i l l f a l l as debr i s .
energy imparted t o it. )
Stage Breaks Up Without Propel lant Detonat ion
(This deb r i s w i l l not have had
a.
b.
C.
d.
,e.
Skin p i eces from t h e S-IV s t a g e .
Ind iv idua l RLlOA-3 rocket engines , i nc lud ing t h e i r hydraul ic
a c t u a t o r s (only is t n e engines ~ r - t . & i vff i=t C V ~ t h r ~ s + s+.mirt.iireI.
RLlOA-3 rocket engine, t h r u s t s t r u c t u r e , helium h e a t e r , and p o r t i o n
of af t dome extending below t h r u s t s t r u c t u r e junc t ion (only i f
engines do not break off at t h r u s t s t r u c t u r e ) .
Ullage rockets-loaded.
E lec t ron ic s rack and units (one p i e c e ) l o c a t e d on forward i n t e r s t a g e
assembly (only i f rack breaks o f f at t h e forward i n t e r s t a g e
assemlijr; .
19 A p r i l 1965
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I 24
f . Electronics un i t s , such as t h e instrumentation s igna l conditioning
equipment, located outside of the th rus t s t ruc ture (only i f t he
I units break o f f a t t he th rus t s t ruc ture) .
Section 5. Effects of Range Safety Flight Termination
g. Thrust s t ruc ture , including electronic equipment accessories mounted inside and a t t h a t portion of the aft dome extending below the
thrus t s t ruc ture junction; excluding engines, external electronics
packages, helium heater and control helium sphere (only i f t he
excluded uni t s break of f a t t he th rus t s t ruc tu re ) ,
h. Cold helium spheres.
i. LH2 tank pressure makeup sphere.
j. Pneumatic control helium sphere.
k. H e l i u m heater.
1. A l l s t ruc ture forward of DAC s t a t i o n 337.781, including useful load.
m. Base heat shield.
5.2.3
If the stage does not break up, the only pieces of debris t h a t may be released by the explosives w i l l be very small pieces of skin plus the s ide
tunnel cover.
Stage Does Not Break Up
5.3
It i s believed t h a t i n i t i a t i o n of RSFT when t h e propellant tanks of t he
S-IV stage are nearly f u l l , w i l l not cause stage breakup s ince the forces
created by the RSFT explosives are probably not strong enough t o def lec t t he
s tage and cause tumbling.
propellants w i l l probably not burst t he tanks,
propellants may not occur, the propellants w i l l vaporize at ambient pressure and temperature.
W i l l be very small pieces of skin and t h e s ide tunnel cover.
Effects of RSFT After Stage Separation With Propell'ant Tanks Nearly Fu l l
Furthermore, t h e hydrostatic pressures of t h e
Although burning of t he
The only pieces t h a t may be released by the explosives
5.4 Effects of RSFT After Stage Separation With Propellant Tanks Nearly
Empty It .la believed t h a t i n i t i a t i o n of RSFT when the propellant tanks are nearly
empty w i l l cause stage breakup because of forces created by the release of
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Sect ion 5 Exfects of Siange Sa fe ty F l i g h t Termination
25
l a r g e volumes of compressed gases from t h e t anks . This stage breakup should
be less ex tens ive than s t a g e breakup before sepa ra t ion when t h e p r o p e l l a n t s
do not detonate . I t i s a n t i c i p a t e d t h a t t h e p i eces d i spe r sed a t t h i s t i m e
w i l l be as follows:
a. Skin p i eces from t h e S-IV s t a g e .
b. Ind iv idua l !?LlOA-3 rocket engines , i nc lud ing t h e i r hydrau l i c
a c t u a t o r s (only i f t h e engines break o f f at t h e t h r u s t s t r u c t u r e ) .
c. R L l O A - 3 rocket engines , t h r u s t s t r u c t u r e , helium h e a t e r , and
po r t ion of a f t dome extending below t h r u s t s t r u c t u r e j u n c t i o n
(only i f engines do not b r e a k o f f a t t h r u s t s t r u c t u r e ) .
d. Ullage rockets-loaded.
e. Ullage rockets-expended.
f . E lec t ron ic s rack and units (one p i e c e ) l oca t ed on t h e forward
i n t e r s t a g e assembly (only i f ‘the rack breaks o f f a t t h e forward
i n t e r s t a g e assembly).
g. E l e c t r o n i c u n i t s , such as t h e instrumentat ion s i g n a l cond i t ion ing
equipment l o c a t e d outs ide o f t h e t h r u s t s t r u c t u r e (only i f t h e wi ts
break off a t t h e t h r u s t s t r u c t u r e ) .
h. Thrust s t r u c t u r e , including e l e c t r o n i c equipment and accesso r i e s
mounted i n s i d e and a t t h a t po r t ion of t h e a f t dome extending below
t h e t h r u s t s t ruc tu r ; j unc t ion ; excluding engines , e x t e r n a l
e l e c t r o n i c s packages , helium h e a t e r and c o n t r o l helium sphere
(only i f t h e excluded u n i t s break o f f at t h e t h r u s t s t r u c t u r e ) .
i. Cold helium spheres .
j. LH2 t ank makeup helium b o t t l e .
k. Pneumatic c o n t r o l sphere. r 1. Helium h e a t e r .
m. A l l s t r u c t u r e forward of DAC s t a t i o n 337.781, inc lud ing useful load.
n. Base hea t s h i e l d .
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26 Sect ion 5 E f f e c t s of Range Safety F l i g h t Termination.
5 . 5 Fragment Velocity Increments Before Stage Separat ion
4
A t h e o r e t i c a l method f o r determining t h e v e l o c i t y increments imparted t o t h e
S-IV s t a g e components or s t a g e fragments ( p i e c e s ) by i n i t i a t i o n of t h e f l i g h t
terminat ion system was developed. By assuming t h a t t h e v e l o c i t y increment
imparted t o a reference p i ece w a s known, a ' r e l a t i o n s h i p between t h e increment
of t h e reference p i ece t o t h e increment o f a l l o t h e r pieces w a s e s t a b l i s h e d
r ega rd le s s of t h e i r d e n s i t y , t h i c k n e s s , and curvature . The r e l a t i o n s h i p w a s
made with the following equat ion:
Q (1 1 A V = F ;At
where :
b V = t h e v e l o c i t y increment imparted t o a p i ece
F = t h e fo rces e x e r t e d on a p i ece due t o s t a g e explosion or breakup
g = g r a v i t a t i o n a l a c c e l e r a t i o n
W = p iece weight
A t = t h e time increment au r ing which t h e fo rces ( F ) a c t on a p i ece
A s s w i n g :
( 2 ) F = PA
where :
P = t h e p re s su re a c t i n g upon a p i ece due t o s t a g e breakup or prope l l an t detonat ion. ( P i s assumed constant f o r a l l p i e c e s . )
A = t h e e f f e c t i v e a r e a of a p i e c e ; i . e . , t h e p r o j e c t e d area of t h e p i ece
and t h a t :
( 3 ) W = A ' T p
where :
P = p iece densi ty
19 A p r i l 1965
~~
T = p iece th i ckness
A ' = p iece a c t u a l s u r f a c e area; i . e . , t h e p i e c e s i d e which i s o r i e n t e d toward t h e p re s su re source
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Section 5 . Effects of Range Safety Flight Termination
~-
27
Then, combining equations (11, (21, and (3)
(I It may be seen from equation (4) tha t t h e velocity increment ( V ) i s d i rec t ly
proportional t o t h e r a t i o of t he projected area of the piece t o i t s ac tua l
surface area ( A / A ' ) , a r a t i o tha t i s a function of t he piece shape.
be assumed t h a t pieces of the S-IV stage w i i l have three basic shapes:
spherical, and cylindrical . A the actual surface area (- may be determined as follows: A'
It may * f l a t ,
The r a t i o of t he piece shape projected area t o
a. f l a t piece
b.
A - = 1 A'
spherical piece
A r - h/2 A r ( f o r h s r ) - =
where :
r = radius of the spherical section
h = height of the spherical section
c. cy l indr ica l piece e' where :
e= cent ra l angle of t h e cy l indr ica l section (radians)
Effects of RSFT
The r a t i o of t h e velocity increments imparted t o two pieces is:
The various stage pieces are separated i n t o two categories f o r t h i s study.
These categories are:
cylindrical tank w a l l , e t c . , and
ullage rockets, e tc .
(1) s k i n pieces such as those originating from the (2 ) spec i f i c pieces s ~ c h 8.s hel ium spheres,
The stage skin i s divided i n t o several sections as
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28 Section. 5
E f fec t s of Range Sa fe ty F l i g h t Termination
i n d i c a t e d i n f i g u r e 5-1. imparted t o any s k i n p i ece i s ' a funct ion of t h e area r a t i o ( A / A ' ) and t h e
density-thickness product ( T ) . Each s k i n s e c t i o n i s assumed t o have a
densi ty- thickness product ( T) which i s constant throughout t h e s e c t i o n .
Therefore, s k i n p i eces from any given s e c t i o n y i l l r ece ive v e l o c i t y
increments which are a func t ion only of t h e i r a r e a r a t i o .
any given s e c t i o n a r e assumed t o be approximately square.
t h i ckness products of t h e s p e c i f i c pieces were found by d i v i d i n g t h e t o t a l
p i ece weight by an assumed area f o r each p i e c e , where t h e assumed area i s
r ep resen ta t ive o f t h e p i ece p r o j e c t e d a r e a . Therefore a l l s p e c i f i c p i eces
have area r a t i o s ( A / A ' ) equa l t o one. The s k i n s e c t i o n s and t h e s p e c i f i c
p i eces considered, are l i s t e d i n t a b l e 5-2 along with t h e i r dens i ty -
t h i ckness products , assumed shapes , s k i n p i ece maximum s i z e ¶ s p e c i f i c p i ece
weight , and s p e c i f i c p i ece r e p r e s e n t a t i v e areas.
It has been shown t h a t t h e v e l o c i t y increment
Skin p i eces from
The densi ty-
Use o f t h e r e fe rence p i ece v e l o c i t y increment t o g e t h e r w i th equat ion ( 6 ) , t h e area r a t i o equat ions and t h e p i ece densi ty- thickness product d a t a of t a b l e 5-2, permits determinat ion of t h e est imated v e l o c i t y increments
imparted t o s k i n p i eces and t h e s p e c i f i c p i e c e s .
The assumptions t h a t a l l p i eces f e e l t h e same p r e s s u r e ( P ) , and t h e values
assumed f o r t h e densi ty- thickness product ( T ) of p i eces such as t h e engines
and u l l a g e rocke t s , are not t o t a l l y c o r r e c t . However, it i s c o m i d e r e d t h a t
use of these assumptions would r e s u l t i n determinat ion of p i e c e v e l o c i t y
increments t h a t are wi th in t h e accuracy of t h e r e fe rence p i e c e v e l o c i t y
increment determination.
5 .5 .1 Propel lant Tank Pieces With P rope l l an t Detonation
It has been assumed t h a t a 1.000 f t / s e c v e l o c i t y increment is imparted t o
a 1 sq f t piece of t h e LH2 t ank w a l l ( r e f e rence p i e c e ) .
v e l o c i t y increment, t h e t o t a l k i n e t i c energy of a l l t h e LH2 t ank w a l l
fragments i s approximately:
Assuming t h i s
2 - - - 1383 x 1.000 2 x 32
= 2.17 x lo7 f t / l b s
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Secqion 5 Effects of Range Safe ty F l igh t Termination
4
29
The energy r e l eased by 1 l b of oxygen r e a c t i n g with hydrogen is 3.9 x 106 f t f lb s . I f it is assumed t h a t L percent of t h i s energy i s t ransformed into.
k i n e t i c energy of t h e fragments, then t h e r e are 3.9 x 10
a v a i l a b l e p e r l b o f oxygen. Therefore , t o ob ta in 1,000 f t / s e c v e l o c i t y ,
4 f t / l b s o f energy
2.17 x 10 To 560 Ib o f oxygen must r e a c t r ap id ly with hydrogen o r . 3.9 x lo)!*
swzyzrizc, i f 0.7 percent of t h e t o t a l oxygen a v a i l a b l e de tona te s , and i f
t h e energy t r a n s f e r is 1 percent e f f i c i e n t (both percentage values are
i n t u i t i v e l y assumed t o be reasonable) , t h e tank s k i n fmgments w i l l r ece ive
a v e l o c i t y o f 1,000 f t / s e c . Therefore, it appears t h a t a v e l o c i t y as high
as 1,000 f t / s e c is reasonable .
The ve loc i ty increment of 1,000 f t / s e c imparted t o t h e re ference p iece
(1 s q ft piece of c y l i n d r i c a l tank w a l l ) , t oge the r with equat ion (G), t h e
a r e a r a t i o equat ions , and t h e p iece densi ty- thickness Froduct data of
t a b l e 5-2, were u t i l i z e d t o compute t h e est imated v e l o c i t y increments
imparted t o t h e sk in p ieces and t h e s p e c i f i c p i eces . The es t imated
ve loc i ty increments imparted t o t h e s p e c i f i c p i eces are presented i n
f i g u r e 5-2.
5.5 .2 Stage Pieces Without Propel lan t Detonation
Pieces d ispersed by t h e S-IV s t a g e breaking up without p rope l l an t detonat ion
w i l l have no apprec iab le ve loc i ty increments imparted t o them.
5.5.3 Stage P ieces Without Breakup
The f e w p ieces which w i l l be d ispersed by i n i t i a t i o n of RSFT without s t a g e
breakup, w i l l have no s i g n i f i c a n t ve loc i ty increments imparted t o them.
5.6 Fragment Veloci ty Increments Af te r Stage Separa t ion With Propel lan t
Tanks Nearlv F u l l
I n i t i a t i o n of t h e RSFT after s t a g e sepa ra t ion and with t h e s t a g e p rope l l an t
t anks nea r ly f u l l , w i l l not r e s u l t i n s t a g e breakup, and debr i s which w i l l
be d ispersed at t h i s t i m e w i l l have no s i g n i f i c a n t v e l o c i t y increments
imparted t o them.
19 A p r i l 1965
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30 Sect ion 5 E f f e c t s of Range Safe ty F l i g h t Termination
5 .7 Fragment Veloc i ty Increments Af t e r Stage Separat ion With Propel lan t
Tanks Nearly Empty
A t t i m e of d e s t r u c t , t h e shaped charge w i l l cu t a s l o t a long t h e LH2 tank
w a l l . The tank w a l l , now unsupported i n t h i s reg ion , w i l l s t a r t t o break
up and t h e p ieces w i l l be acce le ra t ed . This acce le ra t ion w i l l be accompa-
n i ed by vent ing of t h e gases .
of t h e p i eces , i t i s assumed t h a t t h e r e i s no gas leakage f o r t h e f i r s t
one-half i n . of t r a v e l and t h a t t h e gas p re s su re i s decreased ins tan taneous ly
t o zero a f t e r one-half i n . of t r a v e l .
For t h e purpose of e s t ima t ing t h e , re loci ty
I n i t i a l rad ius of LII2 tank ( r ) = 110 i n .
F ina l rad ius of LH2 tank ( r ) = 110.5 i n .
LH2 tank volume ( V ) = T r h
0
1 2
V 2 2 1 W r l h r - = = 1 = 1.009
2 '0 II ro h
The k i n e t i c energy t r ansmi t t ed t a t h e w a l l dur ing t h e f i r s t one-half i n . of
t r a v e l w i l l be:
1 K.E. = poVo I n V
V -
0
Effec t s of RSFT
= 40 X 1 4 4 X 4270 In 1.009
The approximate ve loc i ty o f t h e fragments , t h e r e f o r e , w i l l be:
w 2 Q
K.E. = 1/2 - v
v =JK' W
= J2 x 2.2 x 1 0 5 x 32 1380
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P
A
Section 5 Effects of. Range Safety Flight Termination
31
The velocity increment of 100 f t / s e c imparted t o t h e reference piece
(1 sq ft piece of cylindrical tank wall) , together with equation (61, the
area r a t i o equations and t h e piece density-thickness product data of
t ab le 5-2, were u t i l i zed t o compute t h e estimated velocity increment
imparted t o skin pieces and the specific pieces.
5.8 General Comments
The velocity increment of a given skin section, as shown i n figure 5-2
varies a maximum of 10 percent w i t h an increase.of piece surface area from
1 f t2 t o 100 ft2,
type of breakup before stage separation are considerably smaller (10 sq ft)
than those f o r the pressure vessel explosive type of breakup af ter separa-
t ion . It may also be seen from figure 5-2 t h a t the velocity increment
variation between constant density-thickness product skin pieces i s
negligible f o r a propellant detonation type of breakup. It i s concluded t h a t the velocity increment imparted t o any skin piece is a strong function
of t he density-thickness product of t he piece and i s nearly independent of piece surface area.
The skin pieces anticipated f o r the propellant detonation
5.9
In order t o obtain engine ign i t ion , the engine p re s t a r t and start valves
must be open, an i g n i t i a source must be available, and adequate propellant
pump i n l e t conditions m u s t be achieved.
(which is common t o both stages) t o the command destruct receivers causes an " A l l Engine Cutoff Command" t o be generated i n the S-IV stage.
c=.---?c! c lec+r ics l ly d i sRbles a l l enRine p res t a r t , star t , and ign i t ion
c i r cu i t s .
Poss ib i l i ty of Engine Ignition i n the Event of Destruct Action
The RF arm and cutoff command
This
Therefore, S-IV engine ign i t ion w i l l not occur i f destruct action is taken
during the S-I boost phase, unless both the S-I and S-IV command destruct
receivers subsystems fail. The l a t t e r poss ib i l i t y is extremely remote.
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32
SKIN IECTION
I
I1
IIIa
I I I b
I I I C
I V
V
V I
Section 5 Effects of Range Safety Fl ight Terminatfon
TABLE 5-1 SKIN DESCRIPTIONS
LOCAT I O N
Forward I n t erst age Assembly
Forward Dome
Cylindrical Tank
Commm Bulkhead
Center Portion of A f t Dome
A f t Interstage Assembly and A f t Sk i r t Assembly
Lower Portion of A f t Dome
Upper Portion of A f t Dome
CONSTRUCTION ~
1-in. aluminum honeycomb
1/4-in. aluminum p la t e , par t i a l l y waffled and reduced ( 3/4-in. insula- t i o n ins iae tank) .
1/2-in. aluminum p la t e I
waffled ( 3/4-in. insula- t i o n inside tank) .
1-in. aluminum and f iberglass honFy comb.
1/4-in. aluminum p la t e , p a r t i a l l y reduced . 1.6-in. aluminum honeycomb.
0.086-in. aluminum pla te .
1/4-in. aluminum p la t e , waffled (3/4-in. insula- t i o n inside tank).
NOTE: .Refer t o f igure 5-1 f o r locat ion of skin sections.
.
Table 5-1 19 April 1965
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Sect ion 5 E f f e c t s of Range Sa fe ty F l i g h t
u v
Termin a t i on
n 0 N
- N I n e a U 4
k
e m
1
n m e
i 4 k
9
m
- W 1 9
0 n
c 0 e m
U I n
0 0 m
n
I
I
W 0
a 0 4 Y 0 9
C 4
9 k 0 c 0 4
Y
i d
z W r4 I D e
4 k W
0 *,
L * e P
Table 5-2 19 April 1965
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34 Sect ion 5 E f f e c t s of Range Safety F l i g h t 'Termination.
I I .
4
0 t-
-
0 rl
1 I
I
I .
t- 9 N
ln
t- m
N
o .p
*n
M P drl a - * E O ln
0 rl
Y e, k
.a0 cy I U
+ a .-I
h - E d rl 0 X a k m
i m a a x a o c m a
a h
mv) -
0 0
t- cy
1 + k
0
P W N I <
'0.
?.I k
m N I <
N I + + w w
0 0 . . t - o t - N r ( I @
+ I i
-9 A p r i l 1965 Table 5-2
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Section 5 Effects of Range Sa fe ty Flight Termination
U *
W m f
> 2 0 Y
1
/
I
19 April 1965 Figure 5-1
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36 sec t ion j
Ef fec t s of Range Sa fe ty F l i g h t Termination
Figure 5-2 10 Apr i l
. . (33S/&J) aA ' N O I S O 7 d X 3 "I3SS3A
38nSS38d ALd9V3 OL 3fla J,N3PI?I?I3NI A . L I 3 0 1 3 A 1 I I I I 1 I
I 1 1
0 0 0 0 0 0 bl 0 0 0 0 0 0 9 0
0 30 rl A I4
0 c10 CD T N
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38
.
PROBAB I L I T Y PRECI C T I O I S
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, 1 I 1
6. PROBABILITY PREDICTIDXS
39 Sect ion 6
P r o b a b i l i t y P r e d i c t ions
I n cons ider ing t h e p o s s i b l e abor t s i t u a t i o n s dur ing S-IV s t a g e f l i g h t , it i s
necessary t o p r e d i c t t h e p r o b a b i l i t y of var ious events which are r e l a t e d t o
s t a g e loss and t h e opera t ion of t he range safety f l i g h t te rmina t ion system i n
t h e S-IV s t a g e . The p r o b a b i l i t y pred ic t ions of t h e s e events are included i n
t a b l e s v-1, 6-2, and 6-3 and are based upoq t h e ground rules a n d t h e informa-
t i o n contained i n t h e DSV-l+ R e l i a b i l i t y Mathematical Model, DAC drawing
110. '1859,175, change l e t t e r C , and t h e Mathematical Model Supplement, DAC
drawing No. 1A6$113. It s-hould be noted t h a t t h e ground r u l e s assume t h a t
t h e S-IV s t a g e has one-engine-out and one-flight-control-subsystem-out
c a p a b i l i t y which i s concurrent ly appl icable f o r t h e same engine, bu t no t for
difl 'ei-ent engines.
o u t pr-obabil i t y p r e d i c t i o n . The aforementioned documents r e f l e c t a genera l
S-IV stap:e r a t h e r t h a n a s p e c i f i c conf igura t ion ; as o f t h i s repor t d a t a ,
t h e s p e c i f i c r e l i a b i l i t y pred ic t ions fo r t h e S-IV s t a g e a r e not a v a i l a b l e .
For comparison, t a b l e 6-1 a l s o inc ludes t h e no-engine-
0.1 Vehicle Loss and Mission Loss--Definition
';Lo types of' o v e r a l l loss a r e considered i n t h e R e l i a b i l i t y Mathematical
ilodel--Failure Effec t Analysis ; namely, v e h i c l e loss ani! mission l o s s . For
t h e purpose of t h i s r e p o r t , vehicle loss i s def ined as t h e r e s u l t of s t a g e
loss a t t r i b u t e d t o s t a g e breakup or explosion. Mission loss i s defin'ed as
t h e r e s u l t o f a s t a g e l o s s a t t r i b u t e d t o t h e loss of engine t h r u s t or
excessive d e v i a t i o n from t h e intended f l i g h t path. The l a t t e r d e f i n i t i o n
differs frorr. t h e mathematical model d e f i n i t i o n s i n c e it is, assumed h e r e t h a t
HSFT a c t i o n w i l l be accomplished before t h e s t a g e breaks up.
6.2 Discussion of Resul ts
Table 6-1 inc ludes t h e pred ic t ions f o r t h e complete S-IV stage system.
( 2 ) i n d i c a t e s t h a t s t a g e loss may occur 3.7 times ou t of 100 missions.
( 3 ) i n d i c a t e s t h a t v e h i c l e loss p r o b a b i l i t y i s not a f f e c t e d by t h e change
i n engine-out s t a t u s .
I t e m ( 5 ) shows the percentage of s t a g e loss t h a t may r e s u l t i n v e h i c l e loss
(explosion o r breakup) before RSFT ac t ion .
i n a i c a t e s t n a i i oui, u f 22 a t a g e 1csses i s e v e h i c l e loss type. Due t o t h e
Item
Item
Vehicle loss may occur 6 times ou t of' 100 missions.
For example, 4.6 percent
19 April 1965
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40. Sect ion 6 F'robabi l i t y P red ic t ions
extremely s h o r t f a i l u r e r e a c t i o n t ime ( r e f e r t o Mathematical Model f o r
s p e c i f i c FRT's), i n many cases RSFT a c t i o n may r.ot be p o s s i b l e be fo re the.
veh ic l e breaks up.
Table 6-2 i s t h e counterpar t of t a b l e 6-1, excluding t h e airf rame and t h e
t h r u s t generation subsystems (ELli)A-3 Rocket Engines ) . appear i n t a b l e 6-2 cons ide r a l l t h e f a i l u r e , e f f e c t s ta tements included i n
t h e Mathematical Model. Because of p o s s i b l e unknowns i n t h e a c t u a l loads
nnc! cnvironmental condi t ions t o which t h e S-IV s t a g e airframe w i l l be
exposed fo r t h e du ra t ion of i t s mission, a p e s s i m i s t i c po in t of view w a s
assumed. For pred ic t ion purposes, a l l of t h e air f rame u n r e l i a b i l i t y was
a s s o c i a t e d with v e h i c l e l o s s . Since s u f f i c i e n t t e s t d a t a were not a v a i l a b l e
t o demonstrate t h e c a p a b i l i t y of t h e t h r u s t generat ion subsystem t o su rv ive
t h e c r i t i c a l i g n i t i o n pe r iod ( e . g . , excessive t h r u s t overshoots , ad j acen t
engine i g n i t i n g gasses from an un ign i t ed engine, e t c . ) , it was necessary t o
determine t h e po r t ion of s i n g l e engine u n r e l i a b i l i t y which c o n t r i b u t e s t o
such ' f a i l u r e s . Assuming t h e worst p o s s i b l e c a s e , t h e p r e d i c t i o n has
i n d i c a t e d t h a t approximately 5 percent of s i n g l e engine f'ailures may
c o n t r i b u t e t o veh ic l e loss. For comparison purposes t h e p r e d i c t i o n s of t h e
two subsystems a r e included i n t a b l e 6-1 bu t not i n t a b l e 6-2.
I t e m (1) i n t a b l e 6-3 i s t h e p r o b a b i l i t y t h a t t h e S-IV RSFT system w i l l
ope ra t e properly when c a l l e d upon during S-I s t a g e powered f l i g h t .
i nc ludes the p r o b a b i l i t y t h a t d e s t r u c t i o n of t h e S-IV s t a g e w i l l be i n i t i a t e d
v i a shock propagation from t h e S-I s t a g e command d e s t r u c t subsystem or
i n i t i a t e d by t h e S-IV s t a g e should t h e S-I s t a g e command d e s t r u c t subsystem
be u n r e l i a b l e . Item ( 2 ) i n d i c a t e s t h e success p r o b a b i l i t y of t h e S-IV stage
RSFT of t h e referenced Mathematical Model. I tem ( 3 ) cons ide r s t h e ex tens ion
of t h e S-IV s t a g e RSFT t o inc lude a l l o t h e r S-IV s t a g e components r e q u i r e d
for t h e d e s t r u c t ope ra t ion . This i nc ludes such items as p a r t s of t h e S-IV
s t a g e sequencer , components of t h e e l e c t r i c a l power subsystem, e t c .
The p r e d i c t i o n s which
This
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41 Section 6
Probabi l i ty Predictions
No-Engine-Out Capability** ~
0.869
0.131
0.006
0.125
4.6%
TABLE 6-1 PREDICTION--ALL S-IV STAGE SUBSYSTEMS
L
(3) VEHICLE LOSS PROBABILITY
( 4 ) MISSION LOSS PROBABILITY
( 5 ) PERCENT STAGE LOSS EQUAL TO VMICLE LOSS
"Analysis assumes t h a t mission success can be achieved with one engine out. **Analysis assumes t h a t mission success cannot be achieved with one engine out.
TABLE 6-2 PREDICTION--EXCL'JDING AIRFRAME AND THRUST GENERATION SUBSYSTEMS
(1) NO STAGE LOSS PROBABILITY 0.9763
(3) VEHICLE LOSS PROBABILITY 0.0008
( 4 ) MISSION LOSS PROBABILITY 0.0229
( 5 ) PERCENT STAGE LOSS EQUAL 3.3%
(2 ) STAGE LOSS PROBABILITY 0.0237
TO VEHICLE LOSS
TABLE 6-3 PRRIITCTION--INHERENT RELIABILITY OF RSFT SYSTEM I N S-IV STAGE
( 3) AFTER S-I/S-IV SEPARATION (INCLUDING ALL OTHER S - N STAGE COMPONENTS
I
Tables 6-1 th ru 6-3 19 Apri l 1965
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43
T A B L E S
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44
Tco (set)
0 20 40 60 80 100 120. 140 160 180 200 220 240 260 280 3 00 320 340 360 380 400 420 440 46 0 480 500 5 20 540 560 580 600 612 6 13 6 14 6 15 6 16 617 6 18 6 19
TABLE A SA- 10 (Standard)
IMPACT DATA FOR PREMATURE CUTOFF Geodetic La ti tude
(deg 1
28.53 28.53 28.53 28.52 28.49 28.40 28.18 27.58 27.10 26.92 ‘26.72 26.50 26.27 26.01 25.73 25.41 25.06 24.65 24.21 23.71 23.14 22.49 21.74 20.88 19.87 18.67 17.20 15.32 12.81 9.08 2.43 -5.69 -6.70 -7.80 -8.98
-10.28 -11.70 -13.27 -15 .OO
Longitude (deg)
80.56 80.56 80.55 80.44 80.10 79.20 77.21 72.94 70.15 69.25 68.31 67.33 66.27 65.16 63.97 62.70 61.34 59.89 58.33 56.65 54.84 52.87 50.73 48.37 45.76 42.82 39.44 35.39 30.31 23.33 11.79 -1.95 -3.70 -5.62 -7.73
-10.09 -12.74 -15.75 -19.24
Remaining Flight Time
(=c>
0.0 23.42 54.32 90.60 133.34 192.21 272.25 393.91 450.98 455.78 463.38 470.81 478.30 485.87 493.51 501.33 509.46 518.01 527.05 536.69 547.12 558.64 571.61 586.44 603.88 625.15 652.20 688.69 741.31 825.71 990.51 1210.97 1239.86 1271.55 1306.54 1345.44 1389.05 1438.41 1494.98
Range (n. mi)
0.0 1.51 1.78 6.98 24.95 72.71
178.86 408.62 560.43 610.01 661.51 716.24 774.61 836.93 903.50 974.84 1051.57 1134.39 1223.94 1320.98 1426.61 1542.31 1669.85 1811.45 1970.46 2152.16 2364.94 2623.65 2955.89 3424.16 4219.63 5175.97 5296.64 5428.16 5572.46 5731.91 5909.59 6109.61 6337.50
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k
b. 620 621 622 623 6 24 6 25 6 26
Geodetic L a t i tude
(deg 1
-16.93 -19.08 -21.47 -24.09 -26.81 -28.92 ORBIT
-23.35 -28.30
-42.50 -53.71 -71.46
-34.47
Remain ing Flight Time
(set)
1560.75 1638.65 1733.28 1852.45 2011.63 2251.78
45
Range (n. mi)
6601.07 6911.78 7287.55 7759.25 8388.15 9338.41
.
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46
Tco (set)
0 20 40 60 80 100 120 14 0 160 180 200 220 240 260 280 300 320 34 0 360 380 400 420 440 46 0 480 5 00 5 20 540 560 580 594 595 596 597 598 599 6 00 601 602 6 03 604 6 05 6 06 6 07
TABLE B (SA-10 ( 3 u Maximum)
IMPACT DATA FOR PREMATURE CUTOFF Geodetic Remaining Latitude Longitude Flight Time
(deg) (deg) . (set)
28.53 28.53 28.53 28.52 28.48 28.38 28.13 27.42 26.96 26.76 26.53 26.29 26.02 25.73 25.41 25.05 24.66 24.21 23.71 23.14 22.50 21.77 20.93 19.94 18.77 17.35 15.55 13.14 9 . 6 1 3.42
-5.70 -6.72 -7.83 -9.04
-10.36 -11.81 -13.41 -15.18 -17.15 -19.35 -21.80 -24,47 -27.19 ORBIT
80.56 80.56 80.54 80.41 80.02 79.02 76.80 71.97 69 .41 68 .44 67 .41 66 .34 65.19 63.98 62.69 61.32 59.85 58.29 56 .62 54.82 52.87 50.76 48.45 45.89 43.02 39.73 35 .81 30.91 24.23 13.40 -2.03 -3 .81 -5.75 -7.90
-10.30 -13.01 -16.09 -19.68 -23 .91 -29.04 -35.46 -43.90 -55.84
0 25.14 57.35 95 .01
140.63 204.20 291.07 426.73 476.61 483.35 490.54 497.50 504.43 511.35 518.29 525.35 532.70 540.47 548.78 557.76 567 .71 579.05 592.24 607.98 627.38 652.37 686.30 735.59 814.73 966.94
1213.81 1243.16 1275.42 1311.09 1350.82 1395.43 1446.04 1504.15 1571.89 1652.39 1750.62 1875.17 2043.78
Range (n. mi)
0 1 .51 2.10 8 .49
29.01 82.36
200.87 461.35 600.88 654.47 710.95 770.90 834.78 902.85 975.40
1052.97 1136.23 1225.92 1322.76 1427.62 1541.86 1677.33 1806.33 1961.98 2139.13 2345.83 2595.88 29 15 .43 3362.38 4106.64 5180.37 5302.67 5436.22 5582.99 5745.46 5926.86 6131.47 6365.14 6636.13 6956.72 7346.34 . 7838.92 8504.80
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d r
47
TABLE C
' i
TCO
(set)
0 20 40 60 80 100 120 140 16 0 180 200 220 240 26 0 280 3 00 320 340 360 380 400 4 20 440 46 0 480 5 00
540 560 580 600 6 20 632 633 6 34 635 636 637 638
- 3 LV
SA-10 (3 CJ Minimum) IMPACT DATA FOR FWD4ATlJR.E CUTOFF
Geodetic Latitude (de€!)
28.53 28.53 28.53 28.52 28.50 28.42 28.23 27.73 27.25 27.08 26.90 26.70 26.50 26.28 26.03 25.76 25.45 25.11 24.73 24.29 23.80 23.24 22.59 21.86 21.01 20.00 12. f!c 17.33 15.46 12.94 9.21 2.51 -5.81 -6.86 -8.00 -9.24 -10.61 -12.11 -13.77
Longitude (deg 1
80.56 80.56 80.55 80.45 80.16 79.36 77.59 73.81 70.88 70.04 69.22 68.33 67.38 66.37 65.29 64.14 62.91 61.59 60.16 58 -63 56.98 55.19 53.24 51.11 48.76 46.15 43.21 39.80 35.74 30.64 23.63 11.99 -2.07 -3.90 -5.90 -8.13 -10.61 -13.43 -16.67
Remaining Flight Time
(set)
0 21.97 51.33 86.12 125.94 180.85 255.44 366.67 430.47 434.00 442.03 449.52 456.76 464.07 471.50 479.13 487.09 495.47 504.33 513.72 523.80 534.78 546.89 560 -42 575.82 593.87 615.78 643.52 680.54 733.57 818.33 984.38 1210.44 1240.58 1273.78 1310.60 1351.74 1398.13 14.0 i 99
Range (n. mi)
0 1.51 1.51 5.99 21.71 64.01 158.65 361.26 520.64 566.34 611.94 660.97 713.53 769.66 829.63 893.93 963.14 1037.89 1118.80 1206.51 1301.93 1406.27 1520.92 1647 .49 1788.34 1946.98 2128.79 2342.22 2601.74 2934.91 3404.82 4206 -34 5185.67 5311.24 5448.72 5600.23 5768.45 5957.00 6170.65
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48
Tco (see 1
639 640 64 1 64 2 643 644 645
Geodetic Latitude
(deg 1
-15.62 -17.68 -19.98 -22.54 -25.30 -27.95 ORBIT
Longitude (deg 1
-20.44 -24.94 -30.45 -37.47 -46.86 -60.57
Remaining Flight Time
(set>
15 12.06 1583.76 1669.80 1776.14 1913.11 2103.65
Range (n. mi)
6416.05 6702.71 7045.11 7466.59 8007 -90 8764.44
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ci c
I
1 %
I i
I L L U S T R A T I O N S
,
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50
5 00
100
32
28
24
20
16
12
8
4
0
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52
L
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53
4
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54
0 u .. c .- E u E
8
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55
C.
.
a W
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N TKE LATERAI, DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 19
(-By of 11.5, 10, 7, 3, 1, .5) a t To = 16
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
( -By of 11.5, 10, 7, 3, 1, .5) at To = 20 THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 20
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION
(-p of 11.5, 10, 7 , 3, 1, .5 ) a t T o - = 24 Y
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/ CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION
(-p of 11.5 , 10, 7, 3 , 1, .5) a t To = 28 Y
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73 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 23 (-By of 11.5, 10, 7, 3, 1, .5 ) a t To = 32
m o d d l
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
(-p.. of 11 .5 , 10, 7 , 3 , 1 , . 5 ) a t T i = 36 THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 24
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75 CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN TRE LATERAZ, DIRECTION VERSUS TIME FOR MALFUNCTION M m 25
(-py of 11.*5, 10, 7, 3, 1, . 5 ) at To = 40
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76 CHANGE I N TOTAL V E L O C I T I VECTOR ORIENTATION I N
THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 26
/ (-Py of 11.5, 10, 7, 3, 1, .5) at To = 44
1
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CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN THE LATERAL DIRECTION VERSUS TIME FOR
(-py of 11.5, 10, 7, 3, 1, .5) at To = 48
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78 CHANGE I N TOTAL VELOCITI VECTOR ORIENTATION I N
THE LATERAL DIRECTION VERSUS. TIME FOR MALFUNCTION FIGURE 28 (-By of 11.5, 10, 7, 3, 1, .5) at To = 52
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION,IN THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION
(-p of 11.5, 10, 7, 3, I, .5) at T i = 56 Y
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80
C " G E IN TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 30
(+,, of 11.5, 10, 7, 3 , 1, .5) at To = 60
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81 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE LA- DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 31 (-py of 11.5, 10, 7 , 3, 1, . 5 ) a t To = 64
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a2 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
( - 1 3 ~ of 11.5, 10, 7, 3, 1, .5) at To = 68 THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 32
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83 CHANGE IN TOTAL VEZOCITY VECTOR ORIEKTATION IN
(-By of 11.5, 10, 7, 3, 1, 3) a t To = 72 THE LATERAL DIRECTION VERSUS TIME FOR TIO ON FIGURE 33
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CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 34
(-py of 11.5, 10, 7, 3, 1, .5) at To = 76
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I-
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85 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE LATERAC DIRECTION VERSUS TIME FOR MALFUNCTION (-By of 11.5, 10, 7, 3, 1, -5) at To = 80
FIGURE
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ire LC.
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86 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 36 /
( - B y of 11.5, 10, 7, 3, 1, .5) at To = 84
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87 CHANGE I N TOT& VELOCI* VECTOR ORIENTATION I N
(-ey of 11.5, 10, 7, 3, 1, -5) at To = 88 THE W E R A I . DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 37
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
(-py of 11.5, 10, 7, 3, 1, .5) at To = 92 THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 38
yo
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. 89
CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
(-By of 11.5, 10, 7, 3 , 1, .5) a t To = 96 THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 39
404s m o m 0
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CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 40
(-py of 11.5, 10, 7, 3, 1, .5) at To = 100
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93 / 4
CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAT.. DIRECTION VERSUS. TIME FOR MALFUNCTION FIGURE
(-By of 11.5, 10, 7, 3 , 1, .5) at To = 112
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94
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CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIG
(-pY of 11.5, 10, 7 , 3 , 1, .5) at To = 116
t
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L
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CHANGE IN TOTAL VnOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIG
t t(
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96 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 46 (+,, of 11.5, 10, 7, 3, 1, .5) at To = 124
t
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. CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFVNCTION FIGURE
(-py of 11.5, 10, 7, 3, 1, .5) a t To = 128
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/ CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN
THE L A T E W DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 48 / (-py of 11.5, 10, 7 , 3 , 1, .5) at To = 132
wo
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. 99 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 49 (-py of 11.5, 10, 7, 3, 1, .5 ) a t To = 136 /-=-
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100 CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN THE L A T E W DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 50
(-pY of 6 , 4 , 2, 1) at To = 180 000 4042 000 /
P
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. 101
/ CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 51 /... (-pY of 6, 4, 2 , 1) a t To = 200
TI* IC.
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102 / CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 52 (-By of 6 , 4 , 2 , 1) a t To = 220
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104 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 54 ( - P y of 6, 4 , 2, 1) a t To = 260
.
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105 CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 55
(-$y of 6, 4 , 2, 1) at To = 280
4
t
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106 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
---------
TI= I C .
f
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c
107 CHANGE I N TOTBL VELOCITY VECTOR ORIENTATION I N TFE LATERAL DIRECTION VERSUS TIME FOR MALF'UNCTION FIGURE 57
(-% of 6, 4, 2, 1) a t To = 320
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108 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 58 (-Py of 6, 4 , 2 , 1) at To = 340
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109
FIGURE 59 CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION
(-py Of 6 , 4, 2, 1) a t To 360
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 60
(-py of 6 , 4 , 2 , 1) at To = 380
c
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111 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE u m m DI'~ECTION VERSUS TIME FOR MALFUNCTION FIGW 61 (-By of 6, 4, 2, 1) at To = 400
6 n
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 6 2 /
(-py of 6 , 4 , 2 , 1) a t To = 4 2 0 000 40/
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113 CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN
(-pY of 6, 4, 2, 1) at To = 440 THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 63
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 64
(-Py of 6, 4 , 2 , 1) at To = 460 4042 000 ooo/
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I . I
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MAZmRJCTION
(-By of 6 , 4, 2 , 1) a t To = 480
, T I T P C .
115
FIGURE 65
A O A t 000 000
. . . . . . r i 2 493 I
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CHANGE IN TOTAL VELOCITY VECTOR ORIENTATION IN THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 66
( - p y of 6 , 4 , 2, 1) at To = 500 GGG /
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117 CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N
( -By of 6 , 4, 2, 1) at To = 520 THE LATERAL DIRECTION VERSUS TIHE FOR MACFUNCTION FIGURE 67
8542 ccc c 5 /
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118
CHANGE IN TOTAL VEOCITY VECTOR ORIENTATION IN THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 68
(+,, of 6, 4 , 2, 1) at To = 540
7
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119 C " G E I N TOTAL VELOCITY VECTOR ORIENTATION I N
THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 69 / (+,, of 6, 4, 2 , 1) at To = 560
GOO 4 0 4 t / ? d
*
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION
(+,, of 6 , 4 , 2 , 1) at To = 580
11- I C .
FIGURE 70
.
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121
THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 71 CHANGE IN TOT& VELOCITY VECTOR ORIENTATION IN
(+,, of 6, 4, 2, 1) at To = 600 ,/
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CHANGE I N TOTAL VELOCITY VECTOR ORIENTATION I N THE LATERAL DIRECTION VERSUS TIME FOR MALFUNCTION FIGURE 72
(-f3 of 6 , 4 , 2 , 1) a t To = 620 Y
a r - - - - - - - e t 1 62 5 626 627 620 629 610
11- KC.
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123 EARTH-FIXED VELOCITY AS A FUNCTION OF TR4E FOR MALFUNCTION (-By of 11.5, 10, 7, 3, 1, .5) at To = 16 FIGURE 73
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124 EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION
(-By of 11.5, 10 , 7, 3, 1, .5) at To = 20 FIGURE 14
404t ow ow
8
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125 EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION
(-py of 11.5, 10, 7, 3, I, . 5 ) at To = 24 FIGURE 75
wou ow ooe 1 1 1 1 l 1 1 l 1 1 1 1 l 1 1 1 1 1 1 1 1 l l 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1
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EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-py of 11.5;10, 7, 3, 1, .5) at To = 28 FIGURE 76
404C 000 000
LC.
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c 127 EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION
(-pi of 11.5, 10, 7, 3 , 1, .5) at To = 32 FIGURE 77
me
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EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-py of 11.5, 10, 7, 3 , 1, .5) a t T = 36 FIGURE 78
0
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EARTH-FIXED VnOCITl &-A 01 FOR MALFUNCTION (-By of 11.5, 10, 7, 3, 1, .5) at To = 40 FIGURE 79
000 4 O l t 000
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130
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EARTH-FIXED VELOCITY AS A FUNCTfON-OFTIME FOR MALFUNCTION (-pY of 11.5, 10, 7, 3, 1, .5) at To = 44 FIGURE 80
40411 000 000
I 1 I 1 I I I I I I 1 I 1 I I 11;1 I I 1 I I I I I I 4s 4s 47 - 40 49
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i I
13 1 EARTH-FIXED VELWIT~ AS A FUNCTION OF-TIME FOR MALFUNCTION
(-By of 11.5, 10, 7, 3, 1, .5) at To = 48 FIGURE 81
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EARTH-FIXED VELOCITY AS A F ~ ~ I U I P e m m FOR MALFUNCTION (-By of 11.5, 10, 7, 3 , 1, .5) at To = 52 FIGURE 82
4042 000 000
a
c
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133 EARTH-FIXED vEL(scl%? -A -1dfi .dr TIME FOR MALFUNCTION (-py of 11.5, 10, 7, 3, 1, . 5 ) at To = 56 FIGURE 83
wo
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134 EARTH-FIXED VELOCITJ? AS A FUNCTION OF TIME FOR MALFUNCTION
(-py of 11.5, 10, 7, 3 , 1, .5) a t To = 60 FIGURE 84
104e 000 OQO
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135 EARTH-FIXED VEkOCITY As A FUNCTION OF TIME FOR MALFUNCTION
(-By of 11.5, 10, 7, 3 , 1, .5) at To = 64 FIGURE 85
4042 mesa
b
.
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EARTH-FIXED VELudTTY AS A FUNCTION OF TIME FOR MALFUNCTION (-By of 11.5, 10, 7, 3 , 1, .5) a t To = 68 FIGURE 86
4041 000 000
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EARTH-FIXED VELOCITY -x FTNm6h -6F TIME FOR MALFUNCTION 13 7 (-pY of 11.5, 10, 7, 3, 1, .5) at To = 72 FIGURE 87
4042 000 OPO
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138
EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-By of 11.5, 10, 7, 3 , 1, .5) a t To = 76 FIGURE 88
lgL 000
.
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EARTH-FIXED VnOCm&? 2i .mm'm 'TIME FOR MALFUNCTION (-By of 11.5, 10, 7, 3, 1, . 5 ) at To = 80 FIGURE 89
139
L
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140
EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION b.
(-py of 11.5, 10, 7, 3 , 1, .5) at To = 84 FIGURE 90
404L 000 000
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EARTH-FIXED VELOCITY AS A FUNCTION O F TIME FOR MALFUNCTION (-By of 11.5, 10, 7, 3, 1, .5) at To = 88 FIGURE 91
~ o i t OW 006
14 1
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14 2
EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION ( -By of 11.5, 10, 7, 3 , 1, .5) at To = 92
c
FIGURE 92 404t 000 000
t
c
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EART”l3+IXED VE&OC%.fi -A% AFUNCTION OF TIME FOR MALmTNCTION (-py of 11.5, 10, 7, 3, 1, . 5 ) a t To = 96 FIGURE 93
143 mou onom
.
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144
EARTH-FIXED VELOC!lTk AS A FUNCTION OF TIME FOR MALFUNCTION (-By of 11.5, 10, 7, 3 , 1, . 5 ) at To = 100 FIGURE 94
4042 000 000
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EARTH-FIXED VETBCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-py of 11.5, 10, 7 , 3 , 1, -5) at To = 104 FIGURE 95
145 4042 000 000
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EARTH-FIXED VELOC-AS .A'!YJR~~UV"~4#IME FOR MALFUNCTION (-By of 11.5, 10, 7 , 3 , 1, .5) a t To = 108 FIGURE 96
m
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c
JURTH-FIXED VELOCITY AS A FUNTION OF'TIME FOR MALFUNCTION (-Py of 11.5, 10, 7 , 3, I, .5) at To = 112 FIGURE 97
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EARTH-FIXED VELOCITY & A-FUNCTION-OF TThE FOR MALFUNCTION (-py of 11.5, 10, 7, 3 , 1, .5) at To = 116 FIGURE 98
404t 000 000
c
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EARTH-FIXED VELOCITPAS A E%NCTION OF 9n%IE FOR MALFUNCTION (-py of 11.5, 10, 7, 3, 1, .5) at To = 120 FIGURE 99
149 IQU mow
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EARTH-FIXED VEGCEITYAS A FrrrJcT'ION-OF TIME FOR MALFUNCTION (-By of 11.5, 10, 7, 3, 1, .5) at To = 124 FIGURE 100
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- - - - ~ EARTH-FIXED VELOCITY AS A FUNCTION OF TIElE FOR MALFUNCTION
(-By of 11.5, 10, 7, 3, 1, .5) at T = 132 FIGURE 102 0
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EARTH-FIXED W I 7 L T U l " I O N OF TIME FOR MALFUNCTION (-pY of 11.5, 10, 7, 3, 1, .5) at To = 136 FIGURE 103
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EARTH-FIXED VELocZ'Tl? 'a- A PUxCTION OF TIME FOR MALFUNCTION 154 (+,, of 6, 4 , 2, 1) at To = 180 FIGURZ 194
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EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-pY of 6, 4 , 2, 1) at To = 200 FIGURE 105
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EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-py of 6, 4 , 2 , 1) at To = 220 FIGURE 106
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EARTH-FIXED VELOCITY AS A ??UNCTION OF TIME FOR MALFUNCTION (-pY of 6, 4 , 2, 1) at To = 240
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EARTH-FIXED VELOCIT!?a 'A' PUBTTTON OF T I B FOR MALFUNCTION (-py of 6, 4 , 2, 1) a t To = 260 FIGURE 108
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EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-pY of 6, 4, 2, 1) at To = 280 FIGURE 109
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EARTH-FIXED VELOCITY A FUNCTION OF TIME FOR MALFUNCTION (-py of 6, 4 , 2, 1) at To = 300 FIGURE 1lU
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EARTH-FIXED VnOCITY AS A FUNCTION OF TfME FOR MAJ.,FUNCTION (-py of 6 , 4 , 2, 1) at To = 320 FIGURE 111 L61
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EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-pY of 6, 4 , 2, 1) at To = 340 FIGURE 112 ’
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. EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION
(+,, of 6 , 4, 2, 1) at To = 360 . FIGURE 113 163
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164 EARTH-FIXED VELOCITY AS A FUNCTION dTTIME FOR MALFUNCTION
(-By of 6, 4, 2, 1) at To = 380 FIGURE 114 +
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- - - - .- EARTH-FIXED VELOCITY AS A FVNCTION OF TIME FOR MALFUNCTION
(-By of 6 , 4 , 2, 1) at To = 400 FIGLW 115
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EARTH-FIXED VFLOCITY AS A.WNCTION OF TIME FOR MALFUNCTION (-Py of 6, 4 , 2 , 1) at To = 420 FIGURE 116
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EARTli-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-pY of 6, 4 , 2, 1) at To = 440 FIGURE 117
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168
EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-pY of 6, 4 , 2, 1) a t To = 460 FIGURE 118
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EARTH-FIXED ~ O C I T Y AS A FUNCTION OF TIME FOR MALFUNCTION (-py of 6, 4 , 2, 1) a t To = 480
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170
EARTH-FIXED VELOCITl AS A EVNCTION OF TIME FOR MALFUNCTION (+,, of 6, 4 , 2, 1) at To = 500 FIGURE 120
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EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-pY of 6 , 4, 2, 1) at To = 520 FIGURE 121
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172
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EARTH-FIXED VELOCITY AS A FUNCTION OF-TIME FOR MALFUNCTION (-py of 6 , 4 , 2 , 1) at To = 540 FIGURE 122
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J EARTII-FIXED VELOCITY AS A FUNCTION OF TIME FOR WLJ?UNCTION (-p of 6, 4 , 2, 1) at To = 560 FIGURE 123
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174
V I
M L T E I I / I L C
EARTH-FIXED VELOCITY AS A FUNCTION OF TIME FOR MALFUNCTION (-f3 of 6 , 4 , 2 , 1) a t To = 580 FIGURE 124
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EARTH-FIXED VELOCITY As A FUNCTION OF TIME FOR -ION (-By of 6, 4 , 2, 1) at To = 600 FIGURE 125
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EARTH-FIXED VELOCI"f&i A FUNCTION OF TIME FOR MALFUNCTION (-py of 6, 4 , 2 , 1) a t To = 620 FIGURE 126
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177
REFERENCES
1. "Range Safety Aerodynamic Characteristics of Saturn I, Block I1 Vehicle Consisting of the SA-5, SA-6, and SA-7," M-AERO-AA, July 19, 1963.
2. "Cape Canaveral, Florida, Wind Profile Envelopes for Selected Flight Azimuths,'' Office Memorandum No. M-AERO-G-53-63, March 28, 1963, W. W. Vaughan.
3. SA-10 Predicted Trajectory to be published by R-AERO-FM.
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178
APPROVAL
RANGE SAFETY DATA FOR SATURN SA-10
G. W. Solmon and E. L. Leonard
The information i n t h i s repor t has been reviewed fo r s e c u r i t y c l a s s i f i c a t i o n . Defense or Atomic Energy Commission programs has been made by the MSFC Securi ty C l a s s i f i c a t i o n Off icer . This r epor t , i n i t s e n t i r e t y , has been determined t o be unc lass i f ied .
Review of any information concerning Department of
L. 0. STONE Chief, Flight Mechanics Branch
E. D. GEISSLER Director , Aero-Astrodynamics Laboratory
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179
DIS TRIBUTLON
t a
4
R-DIR, Mr. Weidner MSC-FM, Mr. D. J. Incerto I-I/IB-SIV, Mr. Gerguson MSC-STO, Mr. J. Funk MS-IPL ( 8 ) MSC-ASPO-SCE, M r . T. H. Skopinski ( 4 ) V, Dr. Gruene MSC-ASPO-SCE, Mr. Clay Hicks PF, Mr. Bishop ED, Dr. Bruns VG3, Mr. Chambers ET, Mr. Collins VE, Mr. Davidson L, M r . Gorman PE, Major Hock ED4, Mr. Jelen VG4, Mr. Jenke SF, Mr. Moore T, Dr. Knothe (3) VT, Mr. Moser P, Colonel Petrone GT, M r . Russo E, Mr. Sendler VG4, Mr. Whiteside VE, Mr. Williams GTO2 GAO2 R-P&VE-AAL, Mr. Stafford R-P&VE-VSA, M r . Beck CC-P, Mr. Wofford R-AERO-DIR, Dr. Geissler R-AERO-DIR, Mr. Jean R-AERO-P, Mr. McNair R-AERO-P, Mr. Teague (7) R-AERO-P, Mr. Thionnet (6) R-AERO-AD, Mr. Nash R-AERO-Y , Mr . Vaughan R-AERO-F, Dr. Speer R-AERO-Pm, rir. S i u ~ i R-AERO-FM, Mr. Leonard (8) R-AERO-FM, Mr. Solmn R-.AERO-FM, Mr. Crafts
MSC - MSC-PT6, Mr. R. E. McKann MSC-PS-3, Mr. C. H. Perrine, Jr. MSC-FM, Mr. J. P. Mayer