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||05/28/64||[[https://nssdc.gsfc.nasa.gov/nmc/masterCatalog.do?sc=1964-025A|AS-101]] ||[[https://en.wikipedia.org/wiki/AS-101_(spacecraft)|W]][[https://science.ksc.nasa.gov/history/apollo/sa-6/sa-6.html|x]] || S1 || 182 || 227 ||<-6>decay June 1, 1964 ||
||09/18/64||[[http://nssdc.gsfc.nasa.gov/database/MasterCatalog?sc=1964-057A|AS-102]]||[[https://en.wikipedia.org/wiki/AS-102_(spacecraft)|W]][[https://science.ksc.nasa.gov/history/apollo/sa-7/sa-7.html|x]] || S1 || 177 || 206 ||<-6>decay September 22, 1964 ||
||05/28/64||[[https://nssdc.gsfc.nasa.gov/nmc/masterCatalog.do?sc=1964-025A|AS-101]] ||[[https://en.wikipedia.org/wiki/AS-101_(spacecraft)|W]][[https://science.ksc.nasa.gov/history/apollo/sa-6/sa-6.html|x]] || S1 || 182 || 227 ||<-5>decay June 1, 1964 ||
||09/18/64||[[http://nssdc.gsfc.nasa.gov/database/MasterCatalog?sc=1964-057A|AS-102]]||[[https://en.wikipedia.org/wiki/AS-102_(spacecraft)|W]][[https://science.ksc.nasa.gov/history/apollo/sa-7/sa-7.html|x]] || S1 || 177 || 206 ||<-5>decay September 22, 1964 ||
Line 248: Line 248:
||02/26/66||[[http://nssdc.gsfc.nasa.gov/database/MasterCatalog?sc=APST201|AS-201]]||[[https://en.wikipedia.org/wiki/AS-201|W]][[https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19750018955.pdf|P]] || S1B|| || 425 || 8300 || || || || || 72 || ||02/26/66||[[http://nssdc.gsfc.nasa.gov/database/MasterCatalog?sc=APST201|AS-201]]||[[https://en.wikipedia.org/wiki/AS-201|W]][[https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19750018955.pdf|P]] || S1B|| || 425 || 8300 || || || || 72 ||
Line 251: Line 251:
||11/09/67||[[http://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=1967-113A|AS-501]]||[[https://en.wikipedia.org/wiki/Apollo_4|W]][[http://klabs.org/history/history_docs/jsc_t/apollo_2004_Saturn_v.pdf|x]]|| S5 || 204 || 18092 || || || ||
||01/22/68||[[http://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=1968-007A|AS-204]]||[[https://en.wikipedia.org/wiki/Apollo_5|W]][[http://nssdc.gsfc.nasa.gov/nmc/spacecraftOrbit.do?id=1968-007A|x]]|| S1B||162||214|| || || ||
||04/04/68||[[http://nssdc.gsfc.nasa.gov/database/MasterCatalog?sc=1968-025A|AS-502]]||[[https://en.wikipedia.org/wiki/Apollo_6 |W]][[http://klabs.org/history/history_docs/jsc_t/apollo_06_saturn_v.pdf|x]]|| S5 ||32||22533|| || || ||
||10/11/68||[[http://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=1968-089A|Apollo 7]]||[[https://en.wikipedia.org/wiki/Apollo_7 |W]][[https://history.nasa.gov/apsr/apsr.htm|P]]|| S1B||227||301||7911|| 3.33 || || || 3.5 || || ||
||11/09/67||[[http://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=1967-113A|Apollo 4]]||[[https://en.wikipedia.org/wiki/Apollo_4|W]][[https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19690029435.pdf|E]]|| S5 || 204 || 18092 || 11139 || 7.3 || || || 16 || Lift down 22 sec ||
||01/22/68||[[http://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=1968-007A|Apollo 5]]||[[https://en.wikipedia.org/wiki/Apollo_5|W]][[http://nssdc.gsfc.nasa.gov/nmc/spacecraftOrbit.do?id=1968-007A|x]]|| S1B||162||214||<-5>decay February 12. 1968 ||
||04/04/68||[[http://nssdc.gsfc.nasa.gov/database/MasterCatalog?sc=1968-025A|Apollo 6]]||[[https://en.wikipedia.org/wiki/Apollo_6 |W]][[http://klabs.org/history/history_docs/jsc_t/apollo_06_saturn_v.pdf|x]]|| S5 ||32||22225||10000||<-3>stage 3 fail|| 80 ||
||10/11/68||[[http://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=1968-089A|Apollo 7]]||[[https://en.wikipedia.org/wiki/Apollo_7 |W]][[https://history.nasa.gov/apsr/apsr.htm|P]]|| S1B||227||301||7911|| 3.33 || || || 3.5 ||

Apollo Entry

From Apollo mission reports here

Apollo 7 and 9 were earth orbit, slower reentry. Apollo 8 and 10 through 17 were lunar missions with high speed reentry of the command module. Apollo 11,12, and 14-17 were landing missions.

Useful graphs for Apollo 8, 10, and 11. I cannot find useful entry information after Apollo 11, so these three sets are hopefully representative of the other six lunar missions.

The command module had roll and attitude thrusters, which were used to indirectly control the trajectory. The center-of-mass of the command module was offset toward's the astronaut's feet. That edge of the CM would lead into the airstream; the capsule could be rotated with the roll thrusters so that the lift vector (directed towards the nose) vectored the spacecraft left, right, up, or down. The lift-to-drag ratio for the CM was approximately 0.3, so if the entry drag was near maximum at 6 gees, the lift vector would be about 2 gees, pointed whichever way was necessary to adjust the trajectory. Coming in above orbital velocity, the lift vector would be pointed earthward to keep the CM at the right altitude; below "Vcirc" the lift vector was pointed up to maintain altitude (and thus density and drag force).

The "entry scroll" is a paper graph that was preloaded into the Entry Monitoring System, and scrolled past a little window in the control panel between the left and center seats. If the computer failed, the command module pilot adjusted the roll and lift of the command module to follow the graph. There were two graphs, skip and no skip; if weather over the primary recovery site was bad, the computer (or the CMP manually) would select the "skip" graph and extend reentry by a few hundred kilometers. Apollo 11 skipped to avoid a thunderstorm, the other missions did not skip, and landed at the primary recovery site.

Except ... it looks like Apollo 16 DID do a skip, see below:

Click pictures for enlargements


Apollo 8

  • Mission report

  • page 5-10, 53/252 TABLE 5-V . - ENTRY TRAJECTORY PARAMETERS
    • Entry at 400 kft (122 km) at 146:46:12.8
    • velocity 36 221 ft/s ( 11 040 m/s)
    • flight path angle -6.50 degrees, ( 0.114 slope )
    • maximum velocity 36 303 ( 11 065 m/s )
    • maximum acceleration 6.84 gees
  • page 6-67 to 6-69 entry graphs

Entry Monitor System Scroll, Gees vs Velocity

attachment:a8a.png attachment:a8b.png

Roll vs Mission Elapsed Time

attachment:a8r.png


Apollo 10

  • Mission report

  • page 6-13, 54/323 TABLE 6-VI I . - ENTRY TRAJECTORY PARAMETERS
    • Entry at 400 kft (122 km) at 191:48:54.5
    • velocity 36 314 ft/sec (11 068 m/s)
    • flight-path angle -6.54 degrees ( slope 0.115 )
    • maximum velocity 36 397 ft/s ( 11 094 m/s)
    • maximum acceleration 6.78 gees
  • Entry Postflight Analysis

Entry Monitor System Scroll, Gees vs velocity

attachment:a10ems.png

Roll and Altitude vs Ground Elapsed Time

attachment:a10roll.png attachment:a10alt.png

Gees and Lift/Drag vs Ground Elapsed Time

attachment:a10gee.png attachment:a10LD.png

Range and Vertical Velocity vs Ground Elapsed Time

attachment:a10range.png attachment:a10rdot.png


Apollo 11

  • Mission report

  • page 7-12 120/359 TABLE 7-VI I . - ENTRY TRAJECTORY PARAMETERS
    • Entry at 400 kft (122 km) at 195:03:05.7
    • velocity 36 194.4 ft/sec (11 032 m/s)
    • flight-path angle -6.48 degrees ( slope 0.114 )
    • maximum velocity 36 227.4 ft/s ( 11 042 m/s)
    • maximum acceleration 6.51 gees
  • Entry Postflight Analysis

    • 1st maximum load factor 6.73g 31,810ft/s
    • 1st minimum load factor 0.48g 20,500ft/s
    • 2nd maximum load factor 6.00g 12,390ft/s

Table III

EI time

Load g

V f/s

range n mi

° Bank

Rdot f/s

0:00

0.000

36190

1593

0:28

0.049

36276

1418

0:30

36277

0.0

-3186

1:18

-666

1:30

30176

54.43

211

1:56

1.057

22091

-86.68

Entry Monitor System Scroll, Gees vs Velocity

attachment:a11ems.png

Roll and Altitude vs Time from Entry Interface

attachment:a11roll.png attachment:a11alt.png

Gees vs Time from Entry Interface and Lift/Drag vs Mach Number (velocity)

attachment:a11gee.png attachment:a11LD.png

Range and Vertical Velocity vs Time from Entry Interface

attachment:a11range.png attachment:a11RDOT.png

Velocity vs Time from Entry Interface

attachment:a11vel.png


Apollo 12

  • Mission report

  • page 5-14 96/310 TABLE 5-IX . - ENTRY TRAJECTORY PARAMETERS
    • Entry at 400 kft (122 km) at 244:22:19.1
    • velocity 36 116 ft/sec (11 008 m/s)
    • flight-path angle -6.48 degrees ( slope 0.108 )


Apollo 13 Mission report page 9-17, two brief paragraphs about entry and landing (useless)

Apollo 14 Mission report page 5-28, two brief paragraphs about entry and landing (useless)

Apollo 15 Mission report page 114, two brief paragraphs about entry and landing (useless)

Apollo 16 Mission report page 9-56, "entry deceleration exceeded 7 gees" (semi-useless)

Apollo 16 was the highest gee reentry.I wonder why??? According to the flight journal,

PAO = Public Affairs Officer:

  • PAO: ... We show a velocity at time of Entry into the Earth's atmosphere for Apollo 16 at 36,276 feet per second. This is predicted. And a max g on the crew of Apollo 16 during entry of 7.07 Gs. We're at 289 hours, 29 minutes [264:42].
  • 264:47:35 Duke: Okay, with the readback, Hank. MidPac; 000, 153, 000; 290:06:31, 267; minus 00.71, minus 156.18; 07.1; 36196, 6.54; 1051.0, 36276; 290:23:31; 00:27; Noun 69 is NA; 4.00, 02:00; 00:16, 03:31, 07:46; sextant and boresight are NA; lift vector is up. All the comments are the same except RET 90K is 6 plus 08 over.

    • MidPac mid-Pacific landing

    • 000, 153, 000 roll, pitch, and yaw at the 0.05g event

    • 290:06:31 time for CMP to perform horizon check

    • 267 pitch angle of Earth horizon compared to calibration marks on the CMP left window, +/- 5 degrees

    • minus 00.71 entry point, degrees latitude (south of equator)

    • minus 156.18 entry point, degrees longitude (west of equator)

    • 07.1 maximum gees

    • 36196 entry velocity ft/s (at 400k ft, RET)

    • 6.54 entry angle (at 400k ft)

    • 1051.0 nautical miles from entry (at 0.05 gee) to landing

    • 36276 entry velocity ft/s (at 0.05 gee)

    • 290:23:31 estimated RET reentry time

    • 00:27 seconds from RET to 0.05 gee

    • 4.00 gees during contant g-force maintenance period

    • 2.00 vcirc at 2 minutes 0 seconds after entry interface RET

    • 00:16 RET beginning of blackout

    • 03:31 RET end of blackout

    • 07:46 RET drogue deployment

  • Onboard tape

    • 265:08:48 Duke (onboard): ... Set. Tape is running. Standing by for 289:58 [265:11], Separation Checklist.
    • ...
    • 265:16:32 Mattingly (onboard): Pro.
    • 265:16:36 Young (onboard): 7.62g's.
    • 265:16:37 Mattingly (onboard): Oh, shoot.
    • 265:16:38 Duke (onboard): This says 7.1 on the pad.
    • 265:16:39 Young (onboard): 36188.
    • 265:16:41 Duke (onboard): Okay, this says 36196.
    • 265:16:44 Young (onboard): Minus 6.68.
    • 265:16:46 Duke (onboard): This says 6.54.
    • 265:16:47 Young (onboard): Okay.
    • ...
    • 265:22:32 Duke (onboard): Separate. There we go.
    • ...
    • 265:30:04 Duke (onboard): Seven g's.
    • 265:30:07 Mattingly (onboard): (Laughter) It's going to feel it.
    • 265:30:08 Young (onboard): It's gonna hurt. It really is, I bet you.
    • 265:30:14 Mattingly (onboard): Yep.
    • ...
    • 265:37:03 Duke (onboard): Thirty seconds to RRT. RET?

    • 265:37:14 Mattingly (onboard): And call at RRT.
    • 265:37:17 Duke (onboard): Okay; 15 seconds.
    • ...
    • 265:37:44 Duke (onboard): Okay, we got some - glow ...
    • ...
    • 265:37:59 Duke (onboard): .05g -
    • ...
    • 265:38:02 Mattingly (onboard): Okay, EMS and .05g Roll
    • 265:38:07 Young (onboard): Okay, 0.12g's ...
    • 265:38:08 Mattingly (onboard): Beautiful.
    • 265:38:09 Young (onboard): 0.17, 0.24, 0.34.
    • 265:38:14 Mattingly (onboard): Okay.
    • 265:38:15 Young (onboard): 0.5; okay, 0.7.
    • 265:38:32 Duke (onboard): That's just 2?
    • 265:38:33 Mattingly (onboard): No, that's 4.
    • 265:38:34 Young (onboard): 4.
    • 265:38:38 Mattingly/Young (onboard): 5.
    • 265:38:40 Mattingly (onboard): Right on. There's 6.
    • 265:38:42 Duke (onboard): 6.
    • 265:38:48 Young (onboard): 6.9; 7.
    • 265:38:54 Mattingly (onboard): It's easing off.
    • 265:38:57 Young (onboard): 7. Comp for roll.
    • 265:38:59 Mattingly (onboard): Good.
    • 265:39:00 Young (onboard): Plus 53.
    • 265:39:01 Mattingly (onboard): Circle it.
    • 265:39:02 Young (onboard): Plus 90.
    • 265:39:03 Mattingly (onboard): Good.
    • 265:39:04 Young (onboard): Plus 164.
    • 265:39:05 Mattingly (onboard): Outstanding.
    • 265:39:06 Crew (onboard): [Garble].
    • 265:39:08 Mattingly (onboard): Doing good work; 5g's.
    • 265:39:11 Young (onboard): 5g's; 4.9.
    • 265:39:14 Mattingly (onboard): Outstanding machine! Something's on my window.
    • 265:39:20 Young (onboard): Guess that's Mylar over there.
    • 265:39:21 Duke (onboard): Mylar.
    • 265:39:23 Mattingly (onboard): 4g's; DO .
    • 265:39:24 Young (onboard): Plus 190, plus 87 -
    • 265:39:28:Young (onboard): Plus 53.
    • 265:39:34 Young (onboard): Okay, we're subcirc.
    • 265:39:39 Young (onboard): Comp for plus one.
    • 265:39:42 Duke (onboard): And roll.
    • 265:40:49 Young (onboard): Minus 86 ...
    • 265:40:51 Young (onboard): Minus 84.
    • 265:40:53 Mattingly (onboard): It's gonna pull another 4g's here pretty soon.
    • 265:40:58 Young (onboard): Minus 80.
    • 265:41:02 Young (onboard): Minus 77; minus 76 -
    • 265:41:06 Duke (onboard): Okay, we [garble] blackout right on time.
    • 265:41:09 Duke (onboard): Got signal strength.
    • 265:41:10 Young (onboard): Houston, we're out of the first blackout there.
    • 265:41:59 Mattingly (onboard): Coming up on 3.
    • ...
    • 265:44:14 Young (onboard): Okay, we're through 90K.
    • 265:44:42 Mattingly (onboard): Mark; 50K.
    • 265:44:57 Mattingly (onboard): 40K.
    • 265:45:07 Mattingly (onboard): At 35K,
    • 265:45:14 Mattingly (onboard): 30K
    • 265:45:27 Duke (onboard): The apex cover.
    • 265:45:28:Crew (onboard): There go the drogues.
    • 265:46:17 Duke (onboard): There they go. There go the mains...
    • 265:48:03 Mattingly (onboard): Okay, we're coming through 5500, Charlie.
    • 265:49:17 Mattingly (onboard): all right; 3200.
    • 265:49:59 Mattingly (onboard): Okay, there's 2000
    • 265:50:35 Mattingly (onboard): There's 1000.
    • 265:50:56 Young: Okay. The purge burn has been accomplished.
    • 265:51:07 Young: Splashdown.


Apollo 17 Mission report page 190, no trajectory data (useless)


NASA SP-4009 The Apollo Spacecraft - A Chronology

W=Wikipedia

P = NASA Post-launch Report

C =

Launch

Mission

rocket

perigee

apogee

entry

max

L/D

heat

error

km

km

km/s

gees

MW/m²

km

05/28/64

AS-101

Wx

S1

182

227

decay June 1, 1964

09/18/64

AS-102

Wx

S1

177

206

decay September 22, 1964

02/16/65

AS-103

Wx

S1

500

736

decay July 10, 1985

05/25/65

AS-104

WP

S1

511

739

decay July 8, 1989

07/30/65

AS-105

WP

S1

521

536

decay August 4, 1969

02/26/66

AS-201

WP

S1B

425

8300

72

07/05/66

AS-203

Wx

S1B

184

214

exploded in orbit

08/25/66

AS-202

WP

S1B

1143

8690

380

11/09/67

Apollo 4

WE

S5

204

18092

11139

7.3

16

Lift down 22 sec

01/22/68

Apollo 5

Wx

S1B

162

214

decay February 12. 1968

04/04/68

Apollo 6

Wx

S5

32

22225

10000

stage 3 fail

80

10/11/68

Apollo 7

WP

S1B

227

301

7911

3.33

3.5

12/21/68

Apollo 8

WP

S5

lunar

11065

6.84

0.300

297

2.6

03/03/69

Apollo 9

WP

S5

204

497

7921

3.35

5.0

05/18/69

Apollo 10

Wx

S5

lunar

11094

6.78

0.305

292

2.4

07/16/69

Apollo 11

Wx

S5

lunar

11032

6.56

0.300

301

3.1

11/14/69

Apollo 12

Wx

S5

lunar

11008

6.57

0.309

298

3.7

04/11/70

Apollo 13

Wx

S5

lunar

11037

5.56

0.291

292

1.9

01/31/71

Apollo 14

Wx

S5

lunar

11025

6.76

0.280

308

1.1

07/26/71

Apollo 15

Wx

S5

lunar

11267

6.23

0.290

294

1.9

04/16/72

Apollo 16

Wx

S5

lunar

11033

7.19

0.286

317

5.6

12/07/72

Apollo 17

Wx

S5

lunar

11000

6.49

0.290

317

1.9

ApolloEntry (last edited 2017-11-22 23:14:55 by KeithLofstrom)