Table of Contents

Cover: Gene Cernan during his third moonwalk, Apollo 17, December 1972. NASA image AS17-140-21391. The image has been cropped and the sky has been extended digitally to fit the book layout. Credit: NASA.

Dispelling doubts about the Moon landings,
celebrating courage and ingenuity

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About this book

Copyright notice

About the author

Donations and donor list

Preface

Acknowledgments

Free distribution

Units of measurement and terminology

Comments, corrections and updates

In Memoriam

Chapter 1. Race for the Moon

1.1 Balance of terror
1.2 The Soviets lead
1.3 The US catches up
1.4 The first human being in space
1.5 Apollo gets up to speed
1.6 The real conspiracy: secret Soviet moonshots
1.7 Dress rehearsals, then the real thing
1.8 Post-Apollo explorations

Chapter 2. How we went to the Moon

2.1 The Saturn V rocket
2.2 The Apollo spacecraft
2.3 Crucial maneuvers
2.4 Fiery return
2.5 The true cost of Apollo

Chapter 3. The best evidence of the Moon landings

3.1 Documentation
3.2 Cross-checking: the radio delay
3.3 An impossibly airtight conspiracy
3.4 The silence of the Soviets
3.5 Voices from the Moon
3.6 Moon rocks
3.7 Mirrors on the Moon
3.8 Photographs of the vehicles left on the Moon
3.9 Evidence, but not proof
3.10 Japan’s 3D Moon maps
3.11 Telltale moondust
3.12 The size of the alleged soundstage
3.13 The Moon walk proves the moonwalks
3.14 Attempted simulations in movies
3.15 An impossible feat

Chapter 4. Moon hoax beliefs and believers

4.1 How many people believe these theories?
4.2 Healthy doubt versus misinformed paranoia
4.3 Wide but shallow media coverage
4.4 Media misdirection
4.5 A truly unbelievable journey
4.6 Origins and history of Moon hoax theories
4.7 Bill Kaysing, grandfather of Moon hoax proponents
4.8 Capricorn One and other “Moon hoax” movies
4.9 Ralph Rene
4.10 Fox TV’s Conspiracy Theory: Did We Land on the Moon?
4.11 2002, the year Buzz made contact
4.12 Other notable hoax proponents
4.13 The four fundamental hoax scenarios
4.14 None of the experts have doubts

Chapter 5. Alleged photographic anomalies

5.1 Apollo still photography: a quick primer
5.2 Why are there no stars in the photographs?
5.3 Why is the flag blowing in the wind on an airless Moon?
5.4 How could the flag change position when the astronauts were back inside the spacecraft?
5.5 Why are objects in shadow so strangely well-lit?
5.6 Why aren’t the shadows parallel?
5.7 Why do the astronauts cast shadows of different lengths?
5.8 How come the shadow of the LM reaches the horizon?
5.9 Why is there no flag shadow in the salute photograph?
5.10 How come the spacecraft casts an impossibly huge shadow?
5.11 How can all the photographs be so perfect?
5.12 How come there are photos of the landing site without the Lunar Module?
5.13 Why do the visors show reflections of studio lights?
5.14 How can the camera crosshairs be behind objects?
5.15 How come there’s a letter C on a rock?
5.16 How come the backpack antenna appears and disappears?
5.17 How come Aldrin looks like he’s standing in a spotlight?
5.18 Shouldn’t backlit photos shot in a vacuum just show silhouettes?
5.19 How come Apollo 11’s boulder field isn’t in the photos?
5.20 Why are the tracks of the Moon car missing?
5.21 How come NASA has published retouched photographs?
5.22 How come the EVA photo of Michael Collins is fake?
5.23 How could the astronauts take so many photos in such a short time?
5.24 Why is this astronaut’s shadow missing?
5.25 Why is the United States marking on the LM so bright?
5.26 Why do Aldrin’s boots shine in shadow? Are they lit by a spotlight?
5.27 Why is this photo of the LM on the moon so obviously fake?
5.28 Why is there a sharp dividing line between the foreground and the background?
5.29 Does this spacewalk photo show the reflection of the movie set in the astronaut’s visor?
5.30 Why is there a fake photograph of Alan Shepard on the Moon?
5.31 Why is there a man in a waistcoat in a photo taken on the Moon?
5.32 How come famous photographers claim that the Apollo photos are fake?

Chapter 6. Alleged video and film anomalies

6.1 Apollo video and movie technology: a quick primer
6.2 Why does the flag flutter on the airless Moon?
6.3 Who was already outside to televise Armstrong’s first steps?
6.4 Who stayed behind to shoot the liftoff from the Moon?
6.5 Were the astronauts lifted by wires when they fell?
6.6 Does video show the astronauts’ wires catching the light?
6.7 Why did the astronauts only make such low jumps?
6.8 Is the “Moontruth” video an outtake from the fake TV broadcast?
6.9 How come Kubrick’s widow, Buzz Aldrin and others have confessed on film?
6.10 How could NASA conveniently “lose” the tapes of the first Moon landing?
6.11 Does never-before-seen footage show astronauts faking the view of Earth from deep space?
6.12 Why is there no exhaust from the LM’s ascent rocket engine?
6.13 Why did Apollo 11 transmit color TV from space but not from the Moon?
6.14 Why does the Moon look the same in two different places? Recycled Moon sets?
6.15 Is this video found footage from the movie set where the Moon landings were faked?

Chapter 7. Alleged technological anomalies

7.1 If we could go to the Moon with 1960s technology, why haven’t we ever gone back?
7.2 How come the Russians didn’t even try? Did they know it was impossible?
7.3 Weren’t 1960s computers too primitive?
7.4 How is it possible that everything went so smoothly?
7.5 Why do a rendezvous in lunar orbit, which makes no sense?
7.6 Why don’t we just point a telescope at the landing sites?
7.7 How come nobody sends probes to take pictures of the landing sites?
7.8 How could the large Moon buggy fit inside the small Lunar Module?
7.9 How could Apollo get to the Moon, if it didn’t reach escape velocity?
7.10 Do Russian calculations show that the Saturn V wasn’t powerful enough?
7.11 How could the tiny LM climb back from the Moon?
7.12 How could the Lunar Module be so stable?
7.13 How come the astronauts didn’t unbalance the tiny LM?
7.14 How come the LM simulator was so unstable that Neil Armstrong crashed it?
7.15 How come all the technical problems suddenly vanished?
7.16 Why is there no engine noise in the Moon landing audio?
7.17 How could a Lunar Module made of tinfoil withstand temperature extremes so well?
7.18 Why don’t the boot prints on the Moon match the spacesuit shoes?

Chapter 8. Alleged physical anomalies

8.1 How come the Van Allen radiation belts didn’t kill the astronauts?
8.2 If the Van Allen belts weren’t a problem for Apollo, why does NASA need to test the new Orion spacecraft?
8.3 How come astronaut Terry Virts said that we can’t go to the Moon?
8.4 How come deep space radiation didn’t kill the astronauts?
8.5 Shouldn’t X-ray radiation in space have fogged the films?
8.6 Wouldn’t the camera films have melted or frozen on the Moon?
8.7 Wouldn’t sunlight outside on the Moon have burned or boiled the astronauts’ faces?
8.8 How come meteoroid showers didn’t kill the astronauts?
8.9 How could the astronauts have changed film magazines outside on the Moon?
8.10 Isn’t it impossible to cool an astronaut in a vacuum?
8.11 How come there’s no blast crater under the LM’s engine?
8.12 How could the timing of the lunar liftoff footage be so perfect despite the signal delay?
8.13 Why are Apollo 11‘s footpads clean while later missions have dusty ones?
8.14 How can there be no dust at all on Apollo 11’s LM footpads?
8.15 How can the astronauts’ footprints be so sharp?
8.16 Wasn’t the lunar module hatch too narrow?
8.17 How come the pressurized spacesuits don’t look like they’re inflated?
8.18 How could the astronauts still send TV to Earth when their directional antenna wobbled?

Chapter 9. Other alleged anomalies

9.1 Why did the astronauts have guilty looks on their faces and shun public appearances?
9.2 Did Neil Armstrong hide from the media out of guilt?
9.3 How come NASA refuses to deal with the hoax allegations?
9.4 How come the lunar astronauts won’t face the doubters?
9.5 How come NASA’s Apollo documents aren’t available?
9.6 How is it possible that the Saturn V blueprints have been lost?
9.7 Why is there no delay in the Apollo communications?
9.8 How come the Moon rock donated to Holland is fake?
9.9 Was astronaut Grissom killed to keep him quiet?
9.10 Was NASA whistleblower Thomas Baron murdered?
9.11 Isn’t it suspicious that ten astronauts died in freak accidents?
9.12 Why has Wernher von Braun’s name been removed from German schools?
9.13 How come Neil Armstrong once spoke of removing “truth's protective layers”?

Chapter 10. Alternative realities

10.1 Were the Soviets bribed to keep quiet?
10.2 Were the Apollo Moon rocks faked?
10.3 Did Stanley Kubrick shoot the fake footage?
10.4 Did the Apollo astronauts never leave Earth orbit?
10.5 Did the radio and TV signals come from space, but not from the Moon?
10.6 Were the alleged mistakes left in on purpose by whistleblowers?
10.7 Were the Moon rocks actually meteorites collected in Antarctica by Wernher von Braun?

Chapter 11. UFOs and Moon landings

11.1 Are there UFOs in Apollo photographs?
11.2 Did Buzz Aldrin see a UFO?
11.3 Did Apollo 20 secretly recover an alien spaceship?
11.4 Did the astronauts find alien structures on the Moon?
11.5 What about astronaut Ed Mitchell’s UFO claims?
11.6 Did a lie detector test confirm the astronauts’ UFO sightings?
11.7 Were giant UFOs photographed in front of the Moon during Apollo 9?
11.8 Was alien music heard during Apollo 10 and kept secret?

Chapter 12. How to debate a Moon hoax believer

12.1 One word of advice
12.2 If you really want to debate
12.3 Questions for hoax believers

Chapter 13. Real secrets of the Moon landings

13.1 Aldrin’s pause on the LM ladder
13.2 Suspicious pad corrosions and emissions
13.3 Smuggling on the Moon: the Sieger covers
13.4 Secretive commemorations
13.5 Naked women on the Moon
13.6 The President’s speech in case of Moon disaster

Chapter 14. Remembering the fallen

14.1 Michael James Adams
14.2 Michael P. Anderson, David M. Brown, Kalpana Chawla, Laurel B. Clark, Rick D. Husband, William C. McCool and Ilan Ramon
14.3 Charles Arthur Bassett II and Elliot McKay See, Jr.
14.4 Valentin Bondarenko
14.5 Roger B. Chaffee, Virgil I. “Gus” Grissom and Ed H. White
14.6 Georgi Dobrovolski, Viktor Patsayev and Vladislav Volkov
14.7 Theodore Cordy Freeman
14.8 Edward Galen Givens, Jr.
14.9 Gregory Jarvis, Christa McAuliffe, Ronald McNair, Ellison Onizuka, Judith Resnik, Francis “Dick” Scobee and Michael J. Smith
14.10 Vladimir Komarov
14.11 Robert H. Lawrence, Jr.
14.12 Clifton Curtis Williams, Jr.

Chapter 15. References

15.1 Public photo archives
15.2 Technical reference sites
15.3 Technical books and documents
15.4 Biographies
15.5 Moon-related items, documents and memorabilia for purchase
15.6 Books by Moon hoax proponents
15.7 Websites supporting Moon hoax theories
15.8 DVDs, videos and TV shows supporting hoax claims
15.9 Parodies that hoax proponents believe are true
15.10 Books with rebuttals to Moon hoax claims
15.11 Neutral or debunking DVDs, videos and TV shows
15.12 Moon hoax debunking sites

Chapter 16. Apollo by the numbers

16.1 Apollo landing sites
16.2 The Apollo missions
   16.2.1 AS-201, 26 February 1966
   16.2.2 AS-203, 5 July 1966
   16.2.3 AS-202, 25 August 1966
   16.2.4 Apollo 1 (AS-204), 27 January 1967
   16.2.5 Apollo 4 (AS-501), 9 November 1967
   16.2.6 Apollo 5 (AS-204R), 22-23 January 1968
   16.2.7 Apollo 6 (AS-502), 4 April 1968
   16.2.8 Apollo 7 (AS-205), 11-22 October 1968
   16.2.9 Apollo 8 (AS-503), 21-27 December 1968
   16.2.10 Apollo 9 (AS-504), 3-13 March 1969
   16.2.11 Apollo 10 (AS-505), 18-26 May 1969
   16.2.12 Apollo 11 (AS-506), 16-24 July 1969
   16.2.13 Apollo 12 (AS-507), 14-24 November 1969
   16.2.14 Apollo 13 (AS-508), 11-17 April 1970
   16.2.15 Apollo 14 (AS-509), 31 January-9 February 1971
   16.2.16 Apollo 15 (AS-510), 26 July-7 August 1971
   16.2.17 Apollo 16 (AS-511), 16-27 April 1972
   16.2.18 Apollo 17 (AS-512), 7-19 December 1972
   16.2.19 Skylab, 1973-74
   16.2.20 Apollo-Soyuz, 15-24 July 1975
16.3 Apollo astronauts
16.4 The Saturn V/Apollo spacecraft
16.5 Moon rocks
16.6 Photographs
16.7 The Moon and the Earth

16.7 The Moon and the Earth

Figure 16.7-1. The Earth-Moon system to scale. Credit: Wikimedia.

Earth-Moon distance (center to center). Average: 384,403 km (238,857 miles), equal to about 30 Earth diameters. Minimum: 363,104 km (225,622 miles). Maximum distance: 405,696 km (252,088 miles).

Diameter of the Moon. 3,474 km (2,158 miles), 1/4 of the Earth’s diameter.

Diameter of the Earth. 12,740 km (7,916 miles).

Orbit around the Earth. Every 27.3 Earth days.

Lunar escape velocity. 2.38 km/s (5,323 mph).

Albedo of the Moon. 0.12. The light reflected by the Moon at first quarter or last quarter, i.e., when half of a sunlit hemisphere is visible from Earth, is only 8% of the light reflected by a full Moon.

Temperature at the surface. Average 107°C (224.7°F), maximum 123°C (253.4°F), minimum -153°C (243.4°F). Minimum temperature can drop to -233°C (-387.4°F) in polar regions that are permanently in shadow. At a depth of 1 m (40 in), the temperature is almost constant at -35°C (-31°F).

Distance of the horizon. 2.4 km (1.5 miles) on the Moon; 4.7 km (3 miles) on Earth.

Duration of lunar day and night. 340 hours each.

Size of the Earth in the lunar sky. About 3.6 times the diameter of the Moon in the Earth’s sky.

Brightness of the Earth in the lunar sky. 40 times that of a full Moon.

16.6 Photographs

Figure 16.6-1. First-generation duplicate of a film used during the Apollo 11 mission and previously owned by Buzz Aldrin. Credit: Heritage Auctions.

SO-368 film. Kodak Ektachrome MS color reversal film, ASA 64, 70 mm, double perforation, Estar polyester backing. Used for color photographs outside the LM on Apollo 11.

SO-168 film. Kodak Ektachrome EF color reversal film, ASA 160 (pushed to 1000 ASA for onboard photographs), 70 mm. Used for the ALSCC (stereoscopic lunar surface close-up camera) and for color photographs on all flights except Apollo 11, which used it only for onboard photos.

Type 3400 (HBW) film. Kodak Panatomic-X black and white 70 mm film, ASA 80. Used for the Apollo 11 black and white photographs.

SO-267 (HBW) film. Plus-XX black and white film, ASA 278. Used for photographs outside the LM during Apollo 12 and 14.

Type 3401 (HBW). Plus-XX black and white film, ASA 80-125. Used for photographs outside the LM on Apollo 15, 16 and 17.

Magazine. 160 color photographs, 200 black-and-white.

Total of photographs taken on the surface of the Moon. Over 17,000.

Exposure settings. Aperture: f/5.6, f/8 or f/11. Shutter speed: 1/250, except for some photographs with polarization, taken at 1/125.

Figure 16.6-2. An Apollo Hasselblad camera magazine with settings for the various lighting conditions on the Moon.

NEXT: 16.7 The Moon and the Earth

16.5 Moon rocks

Figure 16.5-1. Apollo lunar rock sample 15498 at the Lunar Sample Vault in Houston. Credit: OptoMechEngineer/Wikimedia.

Total collected Moon rocks. Approximately 382 kg (842 lb). The heaviest single rock (“Big Muley”, Apollo 16) weighs 11.7 kg (25.9 lb).

NEXT: 16.6 Photographs

16.4 The Saturn V/Apollo spacecraft

Figure 16.4-1. Cutout illustration of the Saturn V/Apollo vehicle (1967). Credit: Dan Beaumont.

Overall dimensions and weight. Height: 111 m (363 ft). Diameter (at the base, not including the fins): 10 m (33 ft). Weight: 2,822 t (6.2 million lb, Apollo 8) to 2,965 t (6.5 million lb, Apollo 16).

First stage (S-IC)

Dimensions and weights. Height: 42 m (138 ft). Diameter: 10 m (33 ft). Weight without fuel: 129,822 kg (286,208 lb, Apollo 15) to 138,451 kg (305,232 lb, Apollo 8). Fully fueled weight: 2,175,939 kg (4,797,126 lb, Apollo 8) to 2,288,088 kg (5,044,371 lb, Apollo 16).

Fuel load. RP-1 kerosene and liquid oxygen, 2,034,664 kg (4,485,668 lb, Apollo 8) to 2,155,071 kg (4,751,120 lb, Apollo 16). Burn rate: 12,437 kg/s (27,420 lb/s, Apollo 13) to 12,741 kg/s (28,089 lb/s, Apollo 15).

Propulsion. 5 F-1 engines (4 gimbaling, 1 fixed). Total rated thrust: 3,401,940 kg (7.5 million lb, Apollo 8) to 3,451,840 kg (7.61 million lb, all other flights).

Second stage (S-II)

Dimensions and weights. Height: 25 m (138 ft). Diameter: 10 m (33 ft). Weight without fuel: 35,356 kg (77,947 lb, Apollo 13) to 40,142 kg (88,500 lb, Apollo 8). Fully fueled weight: 471,114 kg (1,038,628 lb, Apollo 8) to 493,536 kg (1,088,061 lb, Apollo 16).

Fuel load. Liquid hydrogen and liquid oxygen, 430,324 kg (948,702 lb, Apollo 8) to 456,635 kg (1,006,708 lb, Apollo 16).

Propulsion. 5 J-2 engines (4 gimbaling, 1 fixed). Total rated thrust: 510,291 kg (1.12 million lb, Apollo 8) to 521,631 kg (1.15 million lb, all other flights).

Third stage (S-IVB)

Dimensions and weights. Height: 17.8 m (58.5 ft). Diameter: 6.6 m (21.7 ft). Weight without fuel: 9,912 kg (21,852 lb, Apollo 7) to 11,760 kg (25,926 lb, Apollo 8). Fully fueled weight: 116,357 kg (256,523 lb, Apollo 7) to 120,798 kg (266,315 lb, Apollo 15).

Fuel load. Liquid hydrogen and liquid oxygen, 105,866 kg (233,395 lb, Apollo 9) to 108,618 kg (239,462 lb, Apollo 15).

Propulsion. One J-2 restartable engine. Rated thrust: 104,326 kg (230,000 lb).

Command and service module (CSM)

Dimensions and weights. CM height: 3.47 m (11.4 ft). SM height (including engine bell): 7.5 m (24.6 ft). CM diameter: 3.91 m (128.ft). SM diameter: 3.91 m (12.8 ft). Crew volume in CM: 6 m³ (210 cu ft). CM fueled weight: 5,557 kg (12,250 lb, Apollo 11) to 5,840 kg (12,874 lb, Apollo 17). SM fueled weight: 18,413 kg (40,593 lb).

Fuel load. Aerozine 50 (50% hydrazine, 50% unsymmetric dimethyl hydrazine) and dinitrogen tetroxide, hypergolic.

Propulsion. CM: only maneuvering thrusters. SM: one main engine and 16 maneuvering thrusters. SM main engine thrust: 9,298 kg (20,500 lb).

Launch Escape System (LES)

Dimensions and weight. Height: 10 m (33 ft). Diameter: 0.66 m (26 in). Fully fueled weight: 4,042 kg (8,910 lb).

Fuel. Solid compound based on polysulfides.

Propulsion. One main motor, one maneuvering motor and one jettison motor, all solid-fueled. Main engine thrust: 66,678 kg (147,000 lb).

Spacecraft/Lunar Module Adapter (SLA)

Dimensions and weight. Height: 8.53 m (28 ft). Diameter: 6.60 m (260 in) at the base, 3.91 m (154 in) at the top. Weight: 1,814 kg (4,000 lb).

Fuel and propulsion. None.

Lunar Module (LM)

Dimensions and weights. Height: 7.29 m (23 ft). Distance between outer ends of legs (deployed): 9.4 m (31 ft). Length of three probes under footpads: 173 cm (68 inches). Diameter of the four footpads: 81 cm (32 in). Total surface of four footpads: 20,750 cm² (3,216 sq in). Cabin volume: 6.7 m³ (235 cu ft), of which 4.5 m³ (160 cu ft) habitable. Weight: 13,941 kg (30,735 lb, Apollo 10) to 16,448 kg (36,262 lb, Apollo 17).

Fuel load. Aerozine 50 (50% hydrazine, 50% unsymmetric dimethyl hydrazine) and dinitrogen tetroxide, hypergolic; 2,365 kg (5,214 lb) in the ascent stage, 8,100 kg (18,100 lb) in the descent stage.

Engines. Descent stage: one, with throttleable thrust (476-4,380 kg; 1,050-9,870 lb) and gimbaling nozzle. Ascent stage: one primary engine, with fixed thrust (1,589 kg; 3,500 lb) and fixed nozzle, and 16 attitude control thrusters.

Saturn V onboard computer (Instrument Unit)

Dimensions and weight. Height: 0.91 m (3 ft). Diameter: 6.6 m (21 ft 8 in). Weight: 1,953 kg (4,306 lb).

Lunar Rover

Dimensions and weights. Length: 2.96 m (116.5 in). Width: 2.06 m (81 in). Height: 1.14 m (44.8 in). Wheelbase: 2.28 m (90 in). Weight: 209.6 kg (462 lb) on Earth, 34.8 kg (77 lb) on the Moon.

Top speed. 13 km/h (8 mph).

Propulsion. 4 electric driving motors; 2 electric motors for the steering system of the 4 steerable wheels.

Cost. 38 million dollars for 5 complete vehicles plus three test vehicles and associated training.

Space suits

Weights. Including the PLSS, approximately 81 kg (180 lb) on Earth or 13.5 kg (30 lb) on the Moon. The PLSS alone weighed approximately 27 kg (60 lb) on Earth or 4.5 kg (10 lb) on the Moon.

Apollo onboard computer (CM/LM)

RAM. 4,096 words of 16 bits = 64,000 bit = approximately 8 kbytes.

Clock. 2.048 MHz.

1202 error. Solved by Steven Bales and Jack Garman.

NEXT: 16.5 Moon rocks

16.3 Apollo astronauts

This list provides the full name, year of birth and death, age at death, and mission(s) flown of every Apollo astronaut, sorted alphabetically by surname. The role and age during each Apollo mission is also given. Apollo 1 crew information is included as a tribute to their loss during preflight training. “STS” references a Space Shuttle flight.

This information is valid as of 9 August 2025.

Edwin Eugene “Buzz” Aldrin Jr (1930- ) – Gemini 12, Apollo 11 (LMP, 39)

William Alison Anders (1933-2024, 90) – Apollo 8 (LMP, 35)

Neil Alden Armstrong (1930-2012, 82) – Gemini 8, Apollo 11 (CDR, 38)

Alan LaVern Bean (1932-2018, 86) – Apollo 12 (LMP, 37), Skylab 3 (CDR, 41)

Frank Frederick Borman II (1928-2023, 95) – Gemini 7, Apollo 8 (CDR, 40)

Vance DeVoe Brand (1931- ) – Apollo-Soyuz (CMP, 44), STS-5, STS-41-B, STS-35

Gerald Paul Carr (1932-2020, 88) – Skylab 4 (CDR, 41)

Eugene Andrew “Gene” Cernan (1934-2017, 82) – Gemini 9-A, Apollo 10 (LMP, 35), Apollo 17 (CDR, 38)

Roger Bruce Chaffee (1935-1967, 31) – Apollo 1 (Pilot, 31)

Michael Collins (1930-2021, 90) – Gemini 10, Apollo 11 (CMP, 38)

Charles “Pete” Conrad Jr (1930-1999, 69) – Gemini 5, Gemini 11, Apollo 12 (CDR, 39), Skylab 2 (CDR, 43)

Ronnie Walter “Walt” Cunningham (1932-2023, 90) – Apollo 7 (LMP, 36)

Charles Moss Duke Jr (1935- ) – Apollo 16 (LMP, 36)

Donn Fulton Eisele (1930-1987, 57) – Apollo 7 (CMP, 38)

Ronald Ellwin Evans (1933-1990, 56) – Apollo 17 (CMP, 39)

Owen Kay Garriott (1930-2019, 89) – Skylab 3 (Science Pilot, 43), STS-9

Edward George Gibson (1936- ) – Skylab 4 (Science Pilot, 38)

Richard Francis “Dick” Gordon Jr (1929-2017, 88) – Gemini 11, Apollo 12 (CMP, 40)

Virgil Ivan “Gus” Grissom (1926-1967, 40) – Mercury 4, Gemini 3, Apollo 1 (CDR, 40)

Fred Wallace Haise Jr (1933- ) – Apollo 13 (LMP, 36)

James Benson Irwin (1930-1991, 61) – Apollo 15 (LMP, 41)

Joseph Peter Kerwin (1932- ) – Skylab 2 (Science Pilot, 41)

James Arthur Lovell Jr (1928-1925, 97) – Gemini 7, Gemini 12, Apollo 8 (CMP, 40), Apollo 13 (CDR, 42)

Jack Robert Lousma (1936- ) – Skylab 3 (Pilot, 37), STS-3

Thomas Kenneth “Ken” Mattingly II (1936-2023, 87) – Apollo 16 (CMP, 36), STS-4, STS-51-C

James Alton McDivitt (1929-2022, 93) – Gemini 4, Apollo 9 (CDR, 39)

Edgar Dean Mitchell (1930-2016, 85) – Apollo 14 (LMP, 40)

William Reid Pogue (1930-2014, 84) – Skylab 4 (Pilot, 43)

Stuart Allen Roosa (1933-1994, 61) – Apollo 14 (CMP, 37)

Walter Marty “Wally” Schirra (1923-2007, 84) – Mercury 8, Gemini 6A, Apollo 7 (CDR, 45)

Harrison Hagan Schmitt (1935- ) – Apollo 17 (LMP, 37)

Russell Louis “Rusty” Schweickart (1935- ) – Apollo 9 (LMP, 33)

David Randolph Scott (1932- ) – Gemini 8, Apollo 9 (CMP, 36), Apollo 15 (CDR, 39)

Alan Bartlett Shepard Jr (1923-1998, 74) – Mercury 3, Apollo 14 (CDR, 47)

Donald Kent “Deke” Slayton (1924-1993, 69) – Apollo-Soyuz (Docking Module Pilot, 51)

Thomas Patten Stafford (1930-2024) – Gemini 6-A, Gemini 9-A, Apollo 10 (CDR, 39), Apollo-Soyuz (CDR, 45)

John Leonard “Jack” Swigert Jr (1931-1982, 51) – Apollo 13 (CMP, 38)

Paul Joseph Weitz (1932-2017, 85) – Skylab 2 (Pilot, 41), STS-6

Edward Higgins White II (1930-1967, 36) – Gemini 4, Apollo 1 (Senior Pilot, 36)

Alfred Merrill Worden (1932-2020, 88) – Apollo 15 (CMP, 39)

John Watts Young (1930-2018, 87) – Gemini 3, Gemini 10, Apollo 10 (38), Apollo 16 (CDR, 41), STS-1, STS-9

Astronauts who flew around the Moon. Only 24 people, all American white males, have ever left low Earth orbit and flown to the Moon at least once, on Apollo 8, 10 and 13 (circumlunar flights) and Apollo 11, 12, 14, 15, 16 and 17 (lunar landing flights). Six of them are still alive: Buzz Aldrin, William Anders, Charles Duke, Fred Haise, Harrison Schmitt, and David Scott. Seventeen have died: Neil Armstrong, Alan Bean, Frank Borman, Eugene Cernan, Michael Collins, Charles Conrad, Ron Evans, Richard Gordon, James Irwin, James Lovell, Ken Mattingly, Edgar Mitchell, Stuart Roosa, Alan Shepard, Thomas Stafford, John Swigert, Alfred Worden, and John Young.

Moonwalkers. Only 12 of the 24 circumlunar astronauts walked on the Moon. Four are still alive: Buzz Aldrin (Apollo 11), David Scott (Apollo 15), Charles Duke (Apollo 16), and Harrison Schmitt (Apollo 17). Eight are no longer with us: Neil Armstrong (Apollo 11), Alan Bean (Apollo 12), Charles Conrad (Apollo 12), Edgar Mitchell (Apollo 14), Alan Shepard (Apollo 14), James Irwin (Apollo 15), John Young (Apollo 16), and Gene Cernan (Apollo 17).

Multiple trips to the Moon. Three astronauts flew to the Moon twice: James Lovell (Apollo 8 and 13), John Young (Apollo 10 and 16) and Eugene Cernan (Apollo 10 and 17). Lovell was the only astronaut to fly twice to the Moon without ever setting foot there: Young and Cernan landed on the Moon during their second trips.

NEXT: 16.4 The Saturn V/Apollo spacecraft

16.2.20 Apollo-Soyuz

Figure 16.2.20-1. Alexei Leonov (left) and Deke Slayton (right) meet in space.

The Apollo-Soyuz Test Project was a joint flight (July 15-24, 1975) of an Apollo Command and Service Module, launched by a Saturn IB, and of a Soviet Soyuz spacecraft. The two vehicles performed a rendezvous and docking in Earth orbit, allowing their crews (astronauts Deke Slayton, Tom Stafford and Vance Brand; cosmonauts Alexei Leonov and Valeri Kubasov) to meet and demonstrate an unprecedented international collaboration in space.

This was the final flight of an Apollo spacecraft and the last spaceflight of an American astronaut for almost six years, until the first Space Shuttle mission, STS-1, lifted off 5 years and 264 days later, on April 12, 1981.

NEXT: 16.3 Apollo astronauts

16.2.19 Skylab

Figure 16.2.19-1. Skylab as seen by the crew of Skylab 2 after the repairs they made (NASA).

In 1973 and 1974, three crewed Apollo Command and Service Modules flew on Saturn IB launchers to Skylab, the United States’ first space station in Earth orbit. Skylab was a converted S-IVB stage and was launched by an uncrewed Saturn V on May 14, 1973 on a flight named Skylab 1.

These flights provided invaluable science on Earth observations and on the effects of long-term weightlessness on human physiology, setting endurance records (28, 59 and 84 days) for their crews:

• Skylab 2 (May 25, 1973 - June 11, 1973): Pete Conrad, Paul Weitz, Joe Kerwin.
• Skylab 3 (July 28, 1973 - September 25, 1973): Alan Bean, Jack Lousma, Owen Garriott.
• Skylab 4 (November 16, 1973 - February 8, 1974): Gerald Carr, William Pogue, Ed Gibson.

Skylab was heavily damaged during ascent and lost one of its solar panels. Internal temperatures soared above 50°C (122°F), and the flight of the first crew had to be postponed while NASA prepared emergency procedures to save the station.

Conrad, Weitz and Kerwin repaired Skylab with a series of high-risk spacewalks and completed several experiments. The crews that followed extended the collection of science data on the Earth, the Sun and space.

The crew of the final mission, Skylab 4, set a new record for the longest single stay in space, with 84 days. The record remained unchallenged until 1978, when the Soviet mission Salyut 6 lasted 96 days.

NEXT: 16.2.20 Apollo-Soyuz

16.2.18 Apollo 17 (AS-512)

Figure 16.2.18-1. Harrison Schmitt next to the Lunar Rover, photographed by Gene Cernan. Photo AS17-146-22386.

Crew: Gene Cernan (CDR), Harrison Schmitt (LMP), Ron Evans (CMP).

Launch vehicle: Saturn V.

LM: present (LM-12). Weight on Earth: 16,448 kg (36,262 lb).

Lunar orbit: yes (75 orbits).

CM and LM call signs: America, Challenger.

Launch and return dates: December 7-19, 1972.

Lunar landing date and time: December 11, 1972 19:54:57 UTC.

Lunar landing site: Taurus-Littrow Valley.

Number of moonwalks: 3 (7 h 11 m; 7 h 36 m; 7 h 15 m).

Mission duration: 12 days 13 hours 51 minutes.

Time spent on the Moon: 3 days 2 hours 59 minutes.

Number of photographs taken: 3,581, of which 2,237 on the Moon. Color TV transmissions were made (including the liftoff of the LM from the Moon) and color movie footage was also shot.

Quantity of Moon rocks: 110.5 kg (243.6 lb).

Rover: yes, for a total of 35.7 km (22.2 miles).

Notes: The last lunar mission of the Apollo project was the first night launch of a US crew, the longest stay on the Moon and in lunar orbit and as a whole the longest lunar mission. It used the heaviest Lunar Module (1,383 kg (3,050 lb) heavier than the one used for Apollo 11), returned the heaviest load of Moon rocks (five times more than Apollo 11), featured the first visit of a geologist (Schmitt) to another world, took the most photographs, covered the greatest distance in a single Rover excursion (20 kilometers (12.4 miles)), and ventured farthest from the LM (7.6 km (4.7 miles)).

Apollo 17 was also the only mission to investigate the nature of lunar soil by using gravimetric measurements and transmitting radio signals through the ground.

Gene Cernan was the last man to walk on the Moon: he left its surface to reenter the Lunar Module at 5:35 GMT on December 14, 1972. Since then, no one has visited the Moon.

This mission, like the previous one, also performed a 67-minute spacewalk during the return trip.

NEXT: 16.2.19 Skylab

16.2.17 Apollo 16 (AS-511)

Figure 16.2.17-1. Charlie Duke on the Moon. Photo AS16-114-18423, processed to reduce internal reflections from the camera.

Crew: John Young (CDR), Charles Duke (LMP), Kenneth Mattingly (CMP).

Launch vehicle: Saturn V.

LM: present (LM-11). Weight on Earth: 16,437 kg (36,237 lb).

Lunar orbit: yes (64 orbits).

CM and LM call signs: Casper, Orion.

Launch and return dates: April 16-27, 1972.

Lunar landing date and time: April 21, 1972 2:23:35 UTC.

Lunar landing site: Descartes highlands.

Number of moonwalks: 3 (7 h 11 m; 7 h 23 m; 5 h 40 m).

Mission duration: 11 days 1 hour 51 minutes.

Time spent on the Moon: 2 days 23 hours 2 minutes.

Number of photographs taken: 2,801, of which 1,787 on the Moon. Color TV transmissions were made (including the liftoff of the LM from the Moon) and color movie footage was also shot.

Quantity of Moon rocks: 95.7 kg (211 lb).

Rover: yes, for a total of 26.7 km (16.6 miles).

Notes: Young and Duke were the first astronauts to explore the highlands of the Moon. They spent a total of 20 hours on the Moon outside the LM and traveled for 26.7 km (16.6 miles) on the Rover, reaching a maximum distance of 4.6 km (2.8 miles) from their spacecraft. Young set the land speed record with the Rover, at 17.1 km/h (10.6 mph). Duke became the youngest moonwalker (he was 36). Apollo 16 had the highest elevation of the Sun above the horizon (48.7°).

During the first of their three moonwalks, the Apollo 16 astronauts collected the heaviest single sample, which weighed 11 kg (24 lb) and was named Big Muley in honor of Bill Muehlberger, director of geology operations for this mission. A photographic spectrograph/telescope, sensitive to far ultraviolet radiation, which on Earth is mostly blocked by the atmosphere, was used for the first time.

Mattingly, during the return trip, performed an hour-long spacewalk approximately 310,000 km (192,000 miles) from Earth while Duke leaned out of the Command Module hatch to help him. Mattingly’s wedding ring, lost in the cabin a few day earlier, started to float out of the hatch, but Duke managed to catch it before it became lost in space.

NEXT: 16.2.18 Apollo 17 (AS-512)

16.2.16 Apollo 15 (AS-510)

Figure 16.2.16-1. Jim Irwin next to the Lunar Rover. Detail of photo AS15-86-11598.

Crew: David Scott (CDR), James Irwin (LMP), Alfred Worden (CMP).

Launch vehicle: Saturn V.

LM: present (LM-10). Weight on Earth: 16,437 kg (36,238 lb).

Lunar orbit: yes (74 orbits).

CM and LM call signs: Endeavour, Falcon.

Launch and return dates: July 26-August 7, 1971.

Lunar landing date and time: July 30, 1971 22:16:29 UTC.

Lunar landing site: near Mare Imbrium (Sea of Rains).

Number of moonwalks: 3 (6 h 32 m; 7 h 12 m; 4 h 49 m) plus a stand-up EVA: Scott, wearing his spacesuit, stood up through the LM’s top docking hatch and scanned the surrounding area visually and photographically for 33 minutes.

Mission duration: 12 days 7 hours 11 minutes.

Time spent on the Moon: 2 days 18 hours 54 minutes.

Number of photographs taken: 2,640, of which 1,151 on the Moon. Color TV transmissions were made (including the liftoff of the LM from the Moon) and color movie footage was also shot.

Quantity of Moon rocks: 77.3 kg (170.4 lb).

Rover: Yes, driven for a total of 27.9 km (17.3 miles).

Notes: This flight included the first use of the Rover lunar car, which allowed a far greater exploration range of up to 5 kilometers (3.1 miles) and made Scott the first car driver on another celestial object. Scott and Irwin were the first moonwalkers to perform three excursions and sleep on the Moon without wearing their spacesuits, which were improved and less rigid. They collected the Genesis Rock, one of the oldest Moon rocks returned to Earth, over 4 billion years old.

Worden launched a science subsatellite from the Service Module in lunar orbit. During the return trip, he performed the first deep-space spacewalk to recover the film canisters of the automatic mapping cameras.

During the third moonwalk, Scott dropped simultaneously a feather and a hammer to confirm Galileo’s theory that different bodies fell at the same rate in a vacuum. He also secretly placed on the Moon a small sculpture, the Fallen Astronaut, to honor the Russian and American space travelers whose deaths were publicly known at the time.

NEXT: 16.2.17 Apollo 16 (AS-511)

16.2.15 Apollo 14 (AS-509)

Figure 16.2.15-1. Alan Shepard holds the US flag on the Moon. Photo AS14-66-9232.

Crew: Alan Shepard (CDR), Edgar Mitchell (LMP), Stuart Roosa (CMP).

Launch vehicle: Saturn V.

LM: present (LM-8). Weight on Earth: 15,279 kg (33,685 lb).

Lunar orbit: yes (34 orbits).

CM and LM call signs: Kitty Hawk, Antares.

Launch and return dates: January 31-February 9, 1971.

Lunar landing date and time: February 5, 1971 9:18:11 UTC.

Lunar landing site: Fra Mauro.

Number of moonwalks: 2 (4 hours 47 minutes; 4 hours 34 minutes).

Mission duration: 9 days 0 hours 1 minutes.

Time spent on the Moon: 1 day 9 hours 3 minutes.

Number of photographs taken: 1,338, of which 417 on the Moon. Color TV broadcasts were made and color movie footage was shot.

Quantity of Moon rocks: 42.3 kg (93.2 lb).

Rover: none. However, a manually propelled cart, termed MET (Modular Equipment Transporter), was used.

Notes: At the beginning of the trip to the Moon, the docking mechanism failed five times to mate the LM and the CM correctly. The system worked only on the sixth attempt. Had docking failed unrecoverably, the Moon landing would have been canceled.

During descent to the Moon, a false contact sent an incorrect signal to the LM’s computer, bringing the spacecraft close to an automatic abort of the mission. Changes to the onboard software, performed on the fly to avoid this risk, caused a failure of the radar altimeter, which however recovered just in time to achieve landing.

At 47, Shepard set the record for the oldest moonwalker. In addition to their science tasks, Shepard hit some golf balls with a club he assembled by attaching a genuine #6 iron to the handle of the contingency sample tool and Mitchell threw the handle of a tool as if it were a javelin. Roosa carried on board the CM several hundred tree seeds, which were planted after the flight returned to Earth, giving rise to the so-called “Moon trees”.

This was the first mission to use red stripes on the legs, arms and helmet to identify the commander (Apollo 13’s suits already had this feature but were never used). Shepard and Mitchell set the walking distance record from the LM at 1.5 kilometers (about one mile) but were unable to climb to the destination of their second moonwalk, the 300-meter (1,000-ft) wide Cone Crater. Images of the landing site taken in 2009 revealed that after traveling approximately 400,000 kilometers (250,000 miles) the two astronauts missed Cone Crater by just 30 meters (about 90 feet).

NEXT: 16.2.16 Apollo 15 (AS-510)

16.2.14 Apollo 13 (AS-508)

Figure 16.2.14-1. The Service Module of Apollo 13, ripped open by the explosion, is abandoned by the astronauts just before they reenter the Earth’s atmosphere. Detail from photo AS13-59-8501. Whitish marks at top left are marker smudges on the film.

Crew: James Lovell (CDR), Fred Haise (LMP), John Swigert (CMP).

Launch vehicle: Saturn V.

LM: present (LM-7). Weight on Earth: 15,192 kg (33,493 lb).

Lunar orbit: scheduled but replaced by a fly-around, setting the absolute crewed record for distance from Earth at 400,171 km (248,654 miles).

CM and LM call signs: Odyssey, Aquarius.

Launch and return dates: April 11-17, 1970.

Lunar landing date and time: scheduled but not performed.

Lunar landing site: Fra Mauro (not reached).

Number of moonwalks: None. EVAs were scheduled but not performed.

Mission duration: 5 days 22 hours 54 minutes.

Time spent on the Moon: None. Scheduled but not performed.

Number of photographs taken: 604 (none on the Moon). Color TV transmissions were broadcast and color movie footage was shot.

Quantity of Moon rocks: None. Collection was scheduled but not performed.

Rover: none.

Notes: A vital oxygen tank in the Service Module burst at 3:07:53 UTC on April 14, 1970, three days after liftoff from Earth on the way to the Moon, 322,000 kilometers (200,000 miles) from Earth. This depleted dramatically the oxygen reserves and the power available, since Apollo’s fuel cells depended on the tank’s oxygen to generate electricity. The historically famous phrase “Houston, we have a problem” was actually uttered by Swigert as “OK, Houston, we’ve had a problem”; Lovell then repeated “Houston, we’ve had a problem”. The plight of the Apollo 13 astronauts was followed live on TV all over the world.

To save the astronauts, all the systems of the command module were shut down, producing an intense cold inside the spacecraft, and the Lunar Module’s reserves and engine were used. The emergency trajectory forced Lovell, Haise and Swigert to fly all the way to the Moon, swing around it and then finally fly back to Earth, where they landed, in very poor physical shape but still standing, three days and 15 hours after the beginning of their ordeal.

NEXT: 16.2.15 Apollo 14 (AS-509)

16.2.13 Apollo 12 (AS-507)

Figure 16.2.13-1. Pete Conrad inspects the Surveyor 3 probe on the Moon. Photo AS12-48-7134.

Crew: Pete Conrad (CDR), Alan Bean (LMP), Dick Gordon (CMP).

Launch vehicle: Saturn V.

LM: present (LM-6). Weight on Earth: 15,223 kg (33,652 lb).

Lunar orbit: yes (45 orbits).

CM and LM call signs: Yankee Clipper, Intrepid.

Launch and return dates: November 14-24, 1969.

Lunar landing date and time: November 19, 1969 6:54:35 UTC.

Lunar landing site: Oceanus Procellarum (Ocean of Storms).

Number of moonwalks: 2 (3 hours 56 minutes; 3 hours 49 minutes).

Mission duration: 10 days 4 hours 36 minutes.

Time spent on the Moon: 1 day 7 hours 31 minutes.

Number of photographs taken: 2,119, of which 583 on the Moon. Color TV transmissions were broadcast and color movie footage was taken.

Quantity of Moon rocks: 34.3 kg (75.7 lb).

Rover: none.

Notes: The second crewed Moon landing demonstrated that pinpoint touchdown was possible: the LM landed just 185 meters (600 feet) from its target, the Surveyor 3 probe. This was the first (and so far the only) time that a crewed mission visited another space vehicle on another celestial body and returned some of its parts.

During liftoff, the Saturn V booster was struck twice by lightning, leading to multiple malfunctions. Only John Aaron’s rapid reaction in Mission Control solved a situation that was leading to an extremely dangerous mission abort.

A color TV camera was used for the live broadcast of the moonwalk, but the camera failed because it was pointed briefly at the Sun, damaging its sensor.

This mission placed on the Moon instruments that were powered by a small nuclear generator, which kept them active for years, providing a constant stream of science data, which was later cross-referenced with the data from subsequent Apollo flights. Conrad and Bean walked up to 411 meters (1,350 feet) away from the LM.

NEXT: 16.2.14 Apollo 13 (AS-508)

16.2.12 Apollo 11 (AS-506)

Figure 16.2.12-1. Buzz Aldrin, photographed by Neil Armstrong, installing scientific instruments on the Moon. Photo AS11-40-5947.

Crew: Neil Armstrong (CDR), Buzz Aldrin (LMP), Michael Collins (CMP).

Launch vehicle: Saturn V.

LM: present (LM-5). Weight on Earth: 15,095 kg (33,728 lb).

Lunar orbit: yes (30 orbits).

CM and LM call signs: Columbia, Eagle.

Launch and return dates: July 16-24, 1969.

Lunar landing date and time: July 20, 1969 20:17:39 GMT.

Lunar landing site: Mare Tranquillitatis (Sea of Tranquility).

Number of moonwalks: one (2 hours 31 minutes 40 seconds).

Mission duration: 8 days 3 hours 18 minutes.

Time spent on the Moon: 21 hours 36 minutes.

Number of photographs taken: 1,408, of which 339 on the Moon (121 of which were taken during the moonwalk). TV transmissions were broadcast and color movie footage was shot.

Quantity of Moon rocks: 21.55 kg (47.5 lb).

Rover: none.

Notes: This was mankind’s first crewed landing on the Moon and the first return of samples and of very high resolution photographs from another celestial object, including panoramas, stereo images and extreme close-ups of the ground.

During landing, the onboard computer was overloaded with data and the automatic navigation system attempted to take the LM into an area strewn with boulders. Armstrong took control and steered the vehicle (with computer assistance) to a less dangerous area, but this deviation took so long that the LM landed with less than a minute of fuel left. The mission was a complete success and allowed the United States to keep President Kennedy’s promise, made only eight years earlier, to land a man on the Moon and return him safely.

Armstrong and Aldrin’s moonwalk began on July 21, 1969 at 2:56:15 GMT (22:56:15 EDT), 6 hours 39 minutes after landing. The maximum distance of the astronauts from the LM was approximately 60 meters (200 feet).

NEXT: 16.2.13 Apollo 12 (AS-507)

16.2.11 Apollo 10 (AS-505)

Figure 16.2.11-1. The ascent stage of Apollo 10’s Lunar Module climbs back from its lunar flight to dock with the Command Module. Detail of photo AS10-34-5108.

Crew: Tom Stafford (CDR), Gene Cernan (LMP), John Young (CMP).

Launch vehicle: Saturn V.

LM: present (LM-4). Weight on Earth: 13,941 kg (30,735 lb).

Lunar orbit: yes (31 orbits).

CM and LM call signs: Charlie Brown, Snoopy.

Launch and return dates: May 18-26, 1969.

Lunar landing date and time: none.

Lunar landing site: none.

Number of moonwalks: none planned.

Mission duration: 8 days 0 hours 3 minutes.

Time spent on the Moon: none planned.

Number of photographs taken: 1,436. TV transmissions were broadcast and movie footage was shot.

Quantity of Moon rocks: none planned.

Rover: none.

Notes: This flight was a dress rehearsal of the actual Moon landing. It was the first lunar flight of the complete Apollo spacecraft and tested the LM, which undocked from the Command and Service Module for eight hours and descended to 14,450 meters (47,400 feet) from the surface of the Moon, with Stafford and Cernan on board, along a path that simulated the actual landing trajectory. The descent stage was then jettisoned and the astronauts used the ascent stage to climb back to the CM and dock, achieving the first rendezvous in lunar orbit. The first color TV transmissions from space were also broadcast.

Apollo 10 demonstrated Mission Control’s ability to handle two spacecraft simultaneously at lunar distances, checked all the lunar descent procedures (except for the actual landing) and tested the LM’s landing radar.

This flight holds the record for the highest speed ever attained by a crewed spacecraft: 39,937 km/h (24,815 mph), during the return from the Moon.

NEXT: 16.2.12 Apollo 11 (AS-506)

16.2.10 Apollo 9 (AS-504)

Figure 16.2.10-1. Dave Scott exits from the Command Module hatch, 6 March 1969. Photo AS09-20-3064.

Crew: James McDivitt (CDR), Russell Schweickart (LMP), David Scott (CMP).

Launch vehicle: Saturn V.

LM: present (LM-3). Weight on Earth: 14,530 kg (32,034 lb).

Lunar orbit: none (mission in Earth orbit).

CM and LM call signs: Gumdrop, Spider.

Launch and return dates: March 3-13, 1969.

Lunar landing date and time: none.

Lunar landing site: none.

Number of moonwalks: none planned.

Mission duration: 10 days 1 hour 0 minutes.

Time spent on the Moon: none planned.

Number of photographs taken: 1,373. TV broadcasts were made and movie footage was shot.

Quantity of Moon rocks: none planned.

Rover: none.

Notes: This was the first flight of the complete Apollo spacecraft, including the Lunar Module, the first internal crew transfer between the two vehicles (from the Command Module to the Lunar Module and back), and the first docking, undocking and re-docking of the CM and LM. Schweickart performed the first spacewalk in a fully autonomous spacesuit (all previous spacewalks had used suits that depended on the spacecraft for cooling and oxygen).

McDivitt and Schweickart performed the first crewed flight of a spacecraft that was unable to reenter the atmosphere and used the LM’s engines to fly up to 183 kilometers (114 miles) away from the CM and test the separation of the LM’s ascent and descent stages.

The mission tested thoroughly and successfully the Apollo spacesuit and the Lunar Module, which were vital components for the Moon landings, as well as the communications, rendezvous, docking and crew transfer procedures. All these goals were achieved despite Schweickart’s bouts of nausea and vomiting.

NEXT: 16.2.11 Apollo 10 (AS-505)

16.2.9 Apollo 8 (AS-503)

Figure 16.2.9-1. The Earth photographed from the Moon during Apollo 8. Photo AS8-14-2383.

Crew: Frank Borman (CDR), William Anders (LMP), James Lovell (CMP).

Launch vehicle: Saturn V.

LM: present as a test article. Weight on Earth: 9,026 kg (19,900 lb).

Lunar orbit: yes (10 orbits).

CM and LM call signs: not assigned (CM and LM present).

Launch and return dates: December 21-27, 1968.

Lunar landing date and time: none.

Lunar landing site: none.

Number of moonwalks: none planned.

Mission duration: 6 days 3 hours 0 minutes.

Time spent on the Moon: none planned.

Number of photographs taken: 1,100. Live TV broadcasts were made and movie footage was shot.

Quantity of Moon rocks: none planned.

Rover: none.

Notes: Apollo 8 was truly groundbreaking: the first crewed flight of a Saturn V, the first crewed mission to fly significantly far from the Earth and the first crewed flight around the Moon. The mission gave mankind the first photographs of the entire Earth taken by astronauts and the first live TV transmission of a crew from lunar orbit. Borman, Lovell and Anders were the first human beings to see the far side of the Moon with their own eyes.

This flight tested successfully the long-range communication and navigation equipment and methods needed for a mission to the Moon. The astronauts, however, were affected by headaches, vomiting and diarrhea in addition to sleeping problems, worsened by staggered sleep shifts and an excessive workload.

As the crew orbited the Moon, they read the first verses of the Book of Genesis live on TV, setting the record for the most watched broadcast in history (approximately 1 billion people in 64 countries).

NEXT: 16.2.10 Apollo 9 (AS-504)

16.2.8 Apollo 7 (AS-205)

Figure 16.2.8-1. Left to right: Donn Eisele, Wally Schirra and Walt Cunningham, on the aircraft carrier USS Essex, just after returning from their mission. Photo KSC-68PC-211, WallySchirra.com.

Crew: Wally Schirra (CDR), Walter Cunningham (LMP), Donn Eisele (CMP).

Launch vehicle: Saturn IB.

LM: not present.

Lunar orbit: none planned.

CM and LM call signs: not assigned (CM present, LM absent).

Launch and return dates: October 11-22, 1968.

Lunar landing date and time: none.

Lunar landing site: none.

Number of moonwalks: none planned.

Mission duration: 10 days 20 hours 9 minutes.

Time spent on the Moon: none planned.

Number of photographs taken: 532. Live TV broadcasts were also made.

Quantity of Moon rocks: none planned.

Rover: none.

Notes: This was the first crewed flight of the Apollo spacecraft, 21 months after the Apollo 1 disaster, and tested all of its systems in Earth orbit. An orbital rendezvous was performed by using the S-IVB stage as a target, but no actual docking was carried out. The crew performed the United States’ first live TV broadcast from space.

The astronauts came down with a head cold, which was particularly unpleasant in weightlessness, and this contributed to a sort of rebellion against the orders from Mission Control, especially on the matter of wearing helmets and gloves during reentry, as the crew was concerned that they would be unable to clear their noses and throats from the mucus accumulated in their heads, which would suddenly start flowing due to deceleration. Mission Control was instead concerned that any unexpected depressurization of the cabin would be lethal if the astronauts weren’t wearing their full reentry gear. The astronauts made the final decision and went through reentry without helmets and gloves.

Apollo 7 was the first US flight to use a mixed-gas atmosphere (65% oxygen, 35% nitrogen) instead of pure oxygen.

NEXT: 16.2.9 Apollo 8 (AS-503)

16.2.7 Apollo 6 (AS-502)

Figure 16.2.7-1. Liftoff of Apollo 6 (NASA).

Crew: none.

Launch vehicle: Saturn V.

LM: present, but only as an engineering mockup.

Lunar orbit: none planned.

CM and LM call signs: not assigned (CM and LM present).

Launch and return dates: April 4, 1968.

Lunar landing date and time: none.

Lunar landing site: none.

Number of moonwalks: none planned.

Mission duration: 9 hours 57 minutes.

Time spent on the Moon: none planned.

Number of photographs taken: 370 (with 70 mm automatic still camera). Automatic onboard movie cameras shot footage to acquire technical data.

Quantity of Moon rocks: none planned.

Rover: none.

Notes: This second test flight of the Saturn V aided in human-rating the giant launcher and testing the new Command Module hatch.

Violent longitudinal oscillations (“pogo”), intolerable for a crew, occurred during liftoff. One of the fairing panels of the Lunar Module suffered a structural failure and pieces of its covering came off. In the second stage, one engine shut down prematurely due to excessive vibrations and another one was shut down due to incorrect wiring; the onboard systems were forced to compensate for the error, leading to an orbit that was significantly different from the planned one.

These and other malfunctions and errors prevented completion of the original flight plan, which would have taken the spacecraft to a distance equal to the Moon’s. The flight also used dedicated instruments to test radiation exposure inside the cabin. The often-used footage of the interstage ring separation is taken from this flight and from Apollo 4.

NEXT: 16.2.8 Apollo 7 (AS-205)