Non-Indigenous Moon Life

The Lunar Life Extraction Mission is designed by Humanoido to collect data on non-indigenous life living on the surface of the Moon. Above is a trial run of the Lunar Processor centered on the retrieval and prospecting of Lunar Life. The derived algorithm handles life form holographic projection in 4D, then represents it in 3D and in conclusion, shows it on the computer's 2D screen. Although purely a data collection mission, it raises the question of communicating with the life form and what language will be needed.

Non-indigenous Moon Life

United Space Technologies has created the Lunar Processor Mission, designed to explore, harvest, and extract non-indigenous life on the Moon. UST's principle space mode, like a starship, is the Electrodynamic Dynamonic Dynatronic EDD vehicular particle dynamic invention. 

Electrodynamic Moon Landing

Majestic lunar crater schrodinger located at the extreme South Pole Terminator. Processed by Humanoido at United Space Technologies, for foreshortening and floor reveal - in regard to the impending potential electrodynamic lunar landing for a samples return mission. According to Astronaut and Mission Specialist Humanoido, sample analysis may involve water ice, volcanic remnants from 2 to 4 billion years ago, asteroid and/or comet debris, and alien-appearing life forms living in the shadows of craters just waiting for discovery, harvesting and extraction.

United Space Technologies Preps for Moon Landing
Electrodynamic Moon Landing

United Space Technologies with SPACE1 is prepping for a great Electrodynamic Moon landing, made possible by the new Electrodynamic Dynamonic Dynatronic EDD vehicular particle dynamic safety invention.

Exploratory Moon Mission Archimedes

 

United Space Technologies UST - Moon scientific exploration data for lunar crater Archimedes is delineated by Humanoido, mission specialist. Archimedes is one of several lunar targets selected for Electrodynamic Dynamonic Dynotronic exploratory missions.

Exploratory Moon Mission Archimedes
Mission data for the exploration of crater Archimedes is cubed to delineate parametric identities including fine detail, over a dozen class craterlets, cast and lighting variances. Electrodynamic Lunar missions are conducted by Humanoido, astronaut and founder of United Space Technologies and SPACE1. Crater Archimedes is one of several relatively smooth floor regio landing sites being studied and up for selection for the next Exploratory Moon Mission by United Space Technologies. Remaining site selections include the large crater Ptolemaeus and Plato which are scheduled for exploration and/or cubing. Maria may not be considered at this time due to lacking parametrics for exploratory missions unless otherwise noted.

Exploratory Moon Mission Plato

https://space1usa.blogspot.com/2022/12/exploratory-moon-mission-plato.html

Sneaky Tiny Tardigrades were First to the Moon

Sneaky Tiny Tardigrades were First to the Moon

https://humanoidolabs.blogspot.com/2022/12/sneaky-tardigrades-were-first-to-moon.html

Hitching rides as stowaways on various lunar spacecraft that landed on the surface of the Moon, these Tardigrades were the first beings from Earth to migrate to the Moon.

https://www.japantimes.co.jp/news/2018/03/23/national/science-health/tiny-tardigrades-might-hold-key-origin-life/

Tardigrades use a protein to shield their DNA from radiation.

https://www.upi.com/Science_News/2016/09/20/Tardigrades-use-protective-protein-to-shield-their-DNA-from-radiation/2961474392866/

Camping Trips to the Moon

Years ago, back in the day - Popular Science proposed camping on the Moon using a small inflatable camping habitat for temp functions. Unfortunately due to the nature of moving in and out of the habitat, dangerous lunar dust and deadly contaminants would be forced inside during air exchanges. As the illustration shows, the lunar astronauts would be required to wear their space suits when inside the inflatable habitat.

Camping Trips to the Moon

Having access to the extremely fast electrodynamic dynamonic dynatronic EDD drive is a great advantage for those going to the moon on short jaunts but not wanting to stay and colonize the region. Essentially one can go on a partial day camping trip, enjoy the mission and quickly return. The trips can be formulated so fast, that lots of gear is not needed for the very short stay. Inflatable tents for camping on the Moon may be available someday but are not necessary. https://www.popsci.com/camping-moon The EDD starship provides everything you need.

United Space Technologies Starship Development

The appearance of the full starship EDD, or any of its versions, or visual patent reveals, are all under their respective NDA Non Disclosure Agreements, therefore this is the closest presentable CGI rendition of the electrodynamic focus ring. Note - two sections are deleted for security reasons. United Space Technologies is privately owned and operated and not under any disclosure obligation. The first lunar excursions are by astronaut Humanoido and in the future, the colonies will be opened up to the adventurous willing to migrate to the Moon and new worlds in the Solar System.

United Space Technologies Starship Development

Starship Development Silence does not mean no development. As a matter of fact, space inventor Humanoido has worked behind the scenes incognito, without interruption from governments, toxic sources, social media, regulatory or other distractions, completely developing the latest and greatest versions of safety space travel - by means of the Electrodynamic Dynamonic Dynatronic EDD vehicular particle dynamic invention. The new source of power has a full year plus of scientific tests and advanced experiments to verify the burgeoning potential of travel to the Moon and planets in the Sol Solar System. At previous count, a minimum of seven units were put into full operations for testing and missions.

Exploratory Moon Mission Plato

United Space Technologies UST - Moon scientific exploration data for lunar crater Plato is delineated by Humanoido, mission specialist. Plato is one of several lunar targets selected for Electrodynamic Dynamonic Dynotronic exploratory missions.

Exploratory Moon Mission Plato
Mission data for the exploration of crater Plato is cubed to delineate parametric identities including fine detail, over a dozen class craterlets, cast and lighting variances. Electrodynamic Lunar missions are conducted by Humanoido, astronaut and founder of United Space Technologies and SPACE1. Crater Plato is one of several smooth floor regio landing sites being studied and up for selection for the next Exploratory Moon Mission by United Space Technologies. Remaining site selections include the large crater Ptolemaeus and Archimedes which are scheduled for exploration and cubing. Maria may not be considered at this time due to lacking parametrics for exploratory missions unless otherwise noted.

Lunar Landing Site Exploratory Missions

Historical SPACE1 test roll capture - United Space Technologies UST lunar mission with the electrodynamic Dynamonic transport safety system

Lunar Landing Site Exploratory Missions Conducted by UST United Space Technologies

December 7, 2022

United Space Technologies, a privately developed and shrouded space venture, is returning to the Moon and conducting a survey mission to establish firma terracotta landing sites, known as a series of Lunar Landing Site Exploratory Missions. The mission series, known as UST Lunar Exploratory I, Exploratory II, and so on, will test the criteria for smooth landing sites for which a temp electrodynamic base may be established. In each mission progression, the criteria for a potential new site will be established. Potential candidate exploratory sites currently include Moon craters Ptolemaeus and Lyot, crater Archimedes, the smooth plains of crater Plato, and Maria regio to be investigated.

United Space Technologies Moon Surface Cameras

Moon mission photo by Humanoido
United Space Technologies Moon Surface Cameras
United Space Technologies has developed a battery of small portable moveable Moon Surface Cameras for the next lunar mission. These cameras will probe the lunar surface and gather vital details regarding the whereabouts of the mission and future lunar scape planners. The cameras will become instrumental in keeping tabs on the Moon Habitat for lunar astronauts and supplement any lunar excursions, before, during and after the events. The Moon Camera can autonomously feed thousands of images back to the source for analysis.

Where to Land on the Moon

Where to Land on the Moon - Upcoming Return Mission

Above: Exciting Moon photo by Humanoido shows many possible lunar sites for the next space mission.

SPACE1 has completed a number of lunar cartographic surveys to determine the next Moon site for the newest mission. The far side is rejected due to the requirement of extra satellites in orbit, required for communications. This leaves a variety of selected sites on the visible side for establishing a lunar base, doing exploration of natural lava tubes, caves and tunnels, and conducting science experiments with the implementation of special equipment like a Moon telescope.

Moon Landing Site
Finding one is not as easy as you think
https://space1usa.blogspot.com/2019/03/space1-singularity-observatory-finding.html

Already to the Moon - South Polar Mission

Humanoido Lands on the Moon

Space1 Private Space Industry

The manned mission to the South Pole of the Moon was an applauded great success on Sunday, March 31st, 2019. The fantastic Moon technical fly-by was achieved by Astronaut Humanoido and the Electrodynamic Safety Rocket with the extremely reliable Electromag drive. Raw data is processed by the SPACE1 Pacific Ocean Space Processing Laboratory and the Center for Spacecraft Data Analysis.

Manned Moon South Polar Mission

Humanoido' Space1 Mission to the Moon

https://space1usa.blogspot.com/2019/04/index-moon-south-pole-mission.html

SPACE1 Space Dynamonic Blueprint Mission

SPACE1 Space Dynamonic Blueprint Mission

SPACE1 is updating the blueprints to a new Dynamonic spacecraft mission, notably a return to the Moon and then on to Mars.

The evolution of SPACE1 spacecraft began with liquid fuel rockets and is current at the state of using an electro dynamic engine to explore the solar system. The historical progression of the rocket and spacecraft program is approximately as follows:

* Liquid fuel
* Back powder
* Inertial
* Micro space
* Near space
* Next space
* Patonic fueled
* Dimensional
* Electro dynamic
* Dynamonic

* AI

New blueprint parameters include the incorporation of AI into a new type of spacecraft. This may speed up a return to the Moon and setting up a Moon base, and a few years later - the Mar initiative with the updated Mars Connect venture.

GEM - Global Planetary In-Situ Habitation Environmental Module for Plant Farming

https://humanoidolabs.blogspot.com/2021/12/gem-global-planetary-in-situ-habitation.html

Long Hard Path to the Moon

Lunar photo by Humanoido at Singularity Observatory

Long Hard Path to the Moon
It was a long and difficult path to Moon from the 1950s through the 1970s with many spacecraft failures and successes, including the story of the American Ranger series.

The Ranger series from one through six all failed their primary mission objectives. Some even failed to hit the Moon and others had camera and equipment failures. Finally with Rangers 7, 8 and 9, great success was achieved with the return of 17,259 photos. The ranger series was designed to start taking photos and then crash into the Moon.

Missions to the Moon
Luna - USSR 25 June 1958
Launch failure (SL-3 Luna)

Thor-Able 1 (Pioneer) - USA 17 August 1958
Launch failure (Thor-Able)

Luna - USSR 23 September 1958
Launch failure (SL-3 Luna)

Pioneer 1 - USA 11 October 1958
Set distance record, failed to reach Moon, reentered 12 Oct 1958 (Thor-Able)

Luna - USSR 12 October 1958
Launch failure (SL-3 Luna)

Pioneer 2 - USA 08 November 1958
3rd stage ignition failure (Thor-Able)

Luna - USSR 04 December 1958
Launch failure (SL-3 Luna)

Pioneer 3 - USA 06 December 1958
Provided radiation data, failed to reach Moon, reentered 07Dec1958 (Thor-Able)

Luna 1 - USSR 02 January 1959
Passed within 5998 km of Moon, in 0.977 × 1.314 × 0.01 ° (450-day) solar orbit

Pioneer 4 - USA 03 March 1959
Passed within 60030 km of Moon, in 0.987 × 1.142 × 1.30 ° solar orbit

Luna - USSR 18 June 1959
Launch failure (SL-3 Luna)

Luna 2 - USSR 12 September 1959
First manmade object to impact moon on 15 Sep 1959 at 29.10 N x 0.00 E near Palus Putredinus

Luna 3 - USSR 04 October 1959
First probe to photograph lunar Farside, for 40 mins, reentered 29 Apr 1960

Pioneer (Atlas-Able 4B) - USA 26 November 1959
Shroud failure (Atlas-Able)

Luna 4 - USSR 12 April 1960
Launch failure (SL-3 Luna)

Pioneer (Atlas-Able 5A) - USA 25 September 1960
2nd stage failure (Atlas-Able). Pieces recovered in S.Africa

Pioneer (Atlas-Able 5B) - USA 15 December 1960
Exploded 70 sec. after liftoff (Atlas-Able)

Ranger 1 - USA 23 August 1961
Failed to reach deep space orbit, died 30 Aug 1961 (Atlas-Agena B)

Ranger 2 - USA 18 November 1961
Failed to reach deep space orbit, reentered 20Nov1961 (Atlas-Agena B)

Ranger 3 - USA 26 January 1962
Missed Moon by 36793 km, in solar orbit (Atlas-Agena B)

Ranger 4 - USA 23 April 1962
Impacted Moon on 26 Apr 1962, timer failure, experiments inoperative

Ranger 5 - USA 18 October 1962
Missed Moon by 724 km, in 0.95 × 1.05 AU solar orbit

Sputnik 25 - USSR 04 January 1963
TLI stage failure? (SL-6 Molniya), reentered 05 Jan 1963

Luna - USSR 03 February 1963
Launch failure (SL-6 Molniya)

Luna - USSR 03 March 1963
Launch failure (SL-6 Molniya)

Luna 4 - USSR 02 April 1963
Probe missed Luna by 8499 km, in barycentric orbit

name? - USSR 10 July 1963
Launch failure (SL-3 Luna)

Ranger 6 - USA 30 January 1964
Impacted Moon on 02 February 1964, TV camera failure

Luna - USSR 21 March 1964
Launch failure (SL-6 Molniya)

Luna (Lunik 1?) - USSR 20 April 1964
Launch failure (SL-6 Molniya)

Luna (Lunik 2?) - USSR 04 June 1964
Launch failure (SL-6 Molniya)

Ranger 7 - USA 28 July 1964
First Ranger success. Returned 4308 photos. Impacted Moon on 31 Jul 1964

Ranger 8 - USA 17 February 1965
Returned 7137 closeup photos. Impacted Moon on 20 Feb 1965 in Mare Tranquillitatis

Kosmos 60 (Lunik 3) - USSR 12 March 1965
Upper TLI stage failure (SL-6 Molniya), reentered

Ranger 9 - USA 21 March 1965
Returned 5814 photos. Impacted Moon on 24 Mar 1965 at approx 14 S × 3 W inside crater Alphonsus

Luna (Lunik 4) - USSR 10 April 1965
Launch failure (SL-6 Molniya)

Lunik 5 - USSR 09 May 1965
Soft landing attempt failed, impacted on 12 May 1965 in Mare Nubium

Lunik 6 - USSR 08 June 1965
Soft landing attempt failed, missed Moon by 160,935 km, in solar orbit

Zond 3 - USSR 18 July 1965
Retransmitted photos taken during lunar flyby, testbed for later Martian probes, in barycentric orbit

Surveyor Model 1 - USA 11 August 1965
Model launched to simulated Moon

Luna 7 - USSR 04 October 1965
Soft landing attempt failed when retros fired early, crashed on 07 Oct 1965 in Oceanus Procellarum

Luna 8 - USSR 03 December 1965
Soft landing attempt failed when retros fired late, crashed on 06 Dec 1965 in Oceanus Procellarum

Luna 9 - USSR 31 January 1966
First soft landing success on 03 Feb 1966 at 7.08 N × 54.37 W, west of Crater Reiner in Oceanus Procellarum, 100 kg descent capsule returned surface pix for 3 days

Kosmos 111 - USSR 1 March 1966
Upper TLI stage failure (SL-6 Molniya), reentered 03 Mar 1966

Luna 10 - USSR 31 March 1966
Orbiter successfully returned data until 30 May 1966, in lunar orbit

Surveyor 1 - USA 30 May 1966
Soft landing success on 02Jun1966 at xx N x yyy W in Oceanus Procellarum, tx'd 11,150 pix until 13 Jul 1966

Explorer 33 - USA 1 July 1966
Overshot lunar orbit (Thor-Agena-Delta), in high earth orbit

Lunar Orbiter 1 - USA 10 August 1966
Transmitted pix until 29 Aug 1966; impacted on 29 Oct 1966

Luna 11 - USSR 24 August 1966
Orbiter successfully returned sci data until 01 Oct 1966, in lunar orbit?

Surveyor 2 - USA 20 September 1966
Vernier failed; crashed on 23 Sep 1966

Luna 12 - USSR 22 October 1966
Orbiter successfully returned photos & data, in lunar orbit

Lunar Orbiter 2 - USA 06 November 1966
Transmitted 205 frames; impacted on 11 Oct 1967

Luna 13 (Lunik 13?) - USSR 21 December 1966
Soft landing on 24 Dec 1966 at 18.87 N x 62.05 W, tx'd photos & soil data

Lunar Orbiter 3 - USA 05 February 1967
Transmitted 182 frames; impacted on 09 Oct 1967

Kosmos 146 - USSR 10 March 1967
Zond/L-1P manned precursor. Successful test in LEO. Reentered 18 Mar 1967

Kosmos 154 - USSR 08 April 1967
Zond/L-1P manned precursor. Separation failure in LEO. Reentered 10 Apr 1967

Surveyor 3 - USA 17 April 1967
Soft landing on 20 Apr 1967 near 2.94 S × 23.45 W in Oceanus Procellarum, site of Apollo 12 landing 2-1/2 years later. Tx'd photos & soil experiments until 03 May 1967

Lunar Orbiter 4 - USA 04 May 1967
Transmitted 163 frames; impacted on 06 Oct 1967

Surveyor 4 - USA 14 July 1967
Lost contact 150 sec. before crashing on 17 Jul 1967

Lunar Orbiter 5 - USA 01 August 1967
Transmitted frames; impacted on 31 Jan 1968; end of mapping pgm

Surveyor 5 - USA 08 September 1967
Soft landing on 11 Sep 1967, tx'd 19,000 photos & soil analysis

name? Zond (-3?) - USSR 27 September 1967
(date may be wrong, not corroborated in Proton Manual. Launch failure (SL-12 Proton). Was this a lunar attempt? "Zond-2" designator already earmarked for Mars '64, "Zond-3" for Luna in '65

Surveyor 6 - USA 07 November 1967
Soft landing on 10 Nov 1967, first rocket takeoff from Moon

Apollo 4 - USA 09 November 1967
First flight of Apollo+Saturn V booster, reentered 09 Nov 1967

Zond (4A or L1#5L) - USSR 22 November 1967
Flyby attempt. 2nd stage failure (SL-12 Proton)

Surveyor 7 - USA 07 January 1968
Soft landing on 10 Jan 1968, Surveyor pgm ends

Apollo 5 - USA 22 January 1968
First all-up test with uprated Saturn 1, unmanned, ascent & descent stage tests, lunar module flight test, AS reentered 24 Jan 1968, DS reentered 12 Feb 1968

Luna 14-1 - USSR 07 February 1968
Launch failure (SL-6 Molniya).

Zond 4 (L1 #6L?) - USSR 02 March 1968
Manned precursor (SL-12 Proton), in translunar orbit

Apollo 6 - USA 04 April 1968
Unmanned command module test with Saturn V, despite 1st stage pogo & loss of 2 engines on same side, 2nd stage malf, 3rd stage restart failure, CM reentered 04 Apr 1968

Luna 14 - USSR 07 April 1968
Earth-moon mass & gravity study, in lunar orbit

Zond (Heavy Soyuz/Zond or L1 #7L) - USSR 22 April 1968
Manned lunar precursor?, 2nd stage failure (SL-12 Proton)

Zond 5 - USSR 14 September 1968
First lunar flyaround, reentered 21 Sep 1968, recovered in Indian Ocean

Apollo 7 - USA 11 October 1968
First manned Apollo flight (Schirra, Cunningham, Eisele) on Saturn 1B with CM & SM, 163 earth orbits, reentered 22 Oct 1968, recovered in Pacific Ocean

Zond 6 - USSR 10 November 1968
Second unmanned circumlunar lunar flight, capsule depressurized during return, double dip reentry with aero lifting, chute failed, crash landed in USSR 17 Nov 1968

Apollo 8 - USA 21 December 1968
First manned circumlunar flight (Borman, Lovell, Anders), on Saturn V, no LM, 10 lunar orbits, reentered 27 Dec 1968, recovered in Pacific Ocean

ASR Luna 15A - USSR 20 January 1969
Automated sample return, 2nd stage failure (SL-12 Proton)

N-1 #3L - USSR 21 February 1969
1st stage failure of superbooster (SL-15 N-1) at T+69 sec. See Ed Cameron's N-1 page

Apollo 9 - USA 03 March 1969
First flight of LM (+CM & SM) on Saturn V, redocking (McDivitt, Scott, Schweickart), reentered 13 Mar 1969, recovered in Pacific Ocean

Apollo 10 - USA 18 May 1969
Second manned circumlunar flight (Stafford, Young, Cernan) on Saturn V, approached 15 km, reentered 26 May 1969, recovered in Pacific Ocean

ASR Luna 15B - USSR 04 June 1969
Automated sample return, 2nd stage failure (SL-12 Proton)

Luna (?) - USSR 14 June 1969
Launch failure from Tyuratam (SL-?)

N-1 #5L - USSR 03 July 1969
1st stage failure of superbooster (SL-15 N-1) at T+0.25 sec. destroying launch facility. Docking mission of Manned Heavy Soyuz on SL-13 (D-1 or Proton) for same day 03 Jul 1969 scrubbed

Luna 15C - USSR 13 July 1969
Attempted sample return? or manned precursor? crash landing on 21 Jul 1969 in Mare Crisium, after 52 orbits and 2 burns

Apollo 11 - USA 16 July 1969
First human landing on the Moon 2017 UT 20 Jul 1969 (Neil Armstrong & Edwin Aldrin in LM, Michael Collins in CM) at 0.71 N × 23.63 E in Mare Tranquillitatis, 2:56 hr EVA, 21.6 hr on surface, 30 orbits, reentered 24 Jul 1969 w/21.7 kg of lunar rocks, recovered in Pacific Ocean. EALSEP science station returned data until Sep 1969

Zond 7 - USSR 07 August 1969
3rd Soviet unmanned circumlunar lunar flight, reentered & landed in USSR 14 Aug 1969

Kosmos 300 (ASR Luna 16A) - USSR 23 September 1969
Automated sample return, 3rd/4th stage separation failure, stages & payload reentered 27 Sep 1969

Kosmos 305 (Luna 16B Rover) - USSR 22 October 1969
Lunar lander and rover, 4th escape stage fired wrong vector, stage & payload reentered 24 Oct 1969

Apollo 12 - USA 14 November 1969
Second human landing on the Moon on19 Nov 1969 (Pete Conrad & ALan Bean in LM, Richard Gordon in CM) at 2.94 S × 23.45 W in Oceanus Procellarum, very close to site of Surveyor 3. 2 EVAs, 31.6 hr on surface, reentered 24 Nov 1969, recovered in Pacific Ocean. Returned 34.4 kg of lunar samples. ALSEP12 science station returned data until 01 Oct 1977

Luna (LK?) - USSR 28 November 1969
Soviet L-1E lunar module first test flight. 2nd stage failure (SL-13 Proton)

ASR Luna 16C - USSR 06 February 1970
1st stage failure; range safety destruct (SL-12 Proton). Also test of L-1E module

Apollo 13 - USA 11 April 1970
Explosion of oxygen tank in SM aborted mission (James Lovell, Jack Swigert, Fred Haise), reentered after circumlunar flight 17 Apr 1970, recovered in Pacific Ocean

ASR Luna 16D - USSR 12 September 1970
Lander touched down on 20 Sep 1970 at 0.41 S × 56.3 E in Mare Fecunditatis, returned 105 gram soil sample. See a video of the Soviet ASR probe landing with retrorockets, scooping up a soil sample, and blasting off again on our Russians in Space v2.1

Zond 8 - USSR 20 October 1970
Flew by Moon, reentered 27 Oct 1970

Luna 17 - USSR 10 November 1970
Lunokhod-1 rover and lander set down on 17 Nov 1970 @ 38.28 N x 35 W in Mare Imbrium, traversed 80 km over 11 months, tx'd 200 pans, 20,000+ pix, soil analyses

Kosmos 379 - USSR 24 November 1970
Successful test of Soviet T2K lander minus legs in LEO on SL-13 Proton D-1 Reentered 21 Sep 1983

Kosmos 382 - USSR 02 December 1970
Prototype Soviet lunar orbiter LK flight test on SL-13 Proton D-1. Modified Zond and flight qual for Blok D stage. In 2464 km × 5189 km × 55.9 ° earth orbit

Apollo 14 - USA 31 January 1971
Third human landing on the Moon on 05 Feb 1971 (Alan Shepard & Edgar Mitchell in LM, Stuart Roosa in CM) at 3.67 S × 17.46 W at Fra Mauro, EVAs, played first round of lunar golf, reentered 09 Feb 1971, recovered in Pacific Ocean. Returned 42.9 kg of lunar samples. ALSEP14 science station returned data until 01 Oct 1977

Kosmos 398 - USSR 26 February 1971
Second unmanned test of Soviet lunar lander T2K on SL-13 Proton D-1 booster, reentered 10 Dec 1995

N-1 #6L - USSR 27 June (or July) 1971
1st stage launch failure of superbooster (SL-15 N-1) carrying mockups of LK & T2K at T+51 sec.

Apollo 15 - USA 26 July 1971
Fourth human landing on the Moon on 30 Jul 1971 (David Scott & James Irwin in LM, Alfred Worden in CM) at 26.11 N × 3.66 E at Hadley Rille near lunar Appenines. First manned lunar rover, roving EVAs + 1 EVA on return trajectory, traversed 11.2 km in ? hr on surface. Reentered 07 Aug 1971, recovered in Pacific Ocean. Returned 76.8 kg of lunar samples. ALSEP15 science station on surface returned data until 01 Oct 1977. P&F subsatellite launched from CM on 04Aug1971, data return until Jul 1972, in lunar orbit. For more details, see The Apollo 15 Flight Journal. The AFJ is a companion to the ALSJ and records the flight of Apollo 15 using air/ground transcripts, commentary and photographs.

Kosmos 434 - USSR 12 August 1971
Test of manned lunar hdwe T2K on SL-4 Soyuz booster, reentered 12Aug1981

Luna 18 - USSR 02 September 1971

Objective? impacted after 54 orbits on 11Sep1971 at 3.57 N x 50.5 E in Mare Fecunditatis

Luna 19 - USSR 28 September 1971
Orbiter returned lunar photos, in lunar orbit

Luna 20 - USSR 14 February 1972
Lander & automated sample return set down @ 3 ° 32 min N × 56 ° 33 min E near Apollonius in Mare Fecunditatis. Capsule & 55 gram (or 30 g) soil sample recovered 25 Feb 1972

Apollo 16 - USA 16 April 1972
Fifth human landing on the Moon on 23 Apr 1972 (John Young & Charles Duke in LM, T.K. Mattingly in CM) at 9.00 S × 16.00 E at Descartes crater, roving EVAs on surface + 1 EVA on return trajectory, 71 hr on surface, reentered 27 Apr 1972, recovered in Pacific Ocean. Returned 94.7 kg samples. ALSEP16 science station returned data until 01 Oct 1977. P&F subsatellite launched from CM on 24 Apr 1972, impacted 29 May 1972

N-1 #7L - USSR 23 November 1972
Erroneous range safety destruct of superbooster (SL-15 N-1) at T+107 sec during 1st stage fire, 2nd stage probably was OK. End of N-1 program

Apollo 17 - USA 07 December 1972
Sixth and last human landing on the Moon on 15 Dec 1972 (Gene Cernan & Harrison Schmitt in LM, Ronald Evans in CM) at 20.17 N × 30.75 E at Taurus Littrow, roving EVAs on surface for 30.5 km (longest = 7:37 hr) + 1 EVA on return trajectory, 75 hr on surface, found Genesis rock, reentered 19 Dec 1972, recovered in Pacific Ocean. Returned 110.5 kg samples. ALSEP17 science station returned data until 01 Oct 1977

Luna 21 - USSR 08 January 1973
Lunokhod-2 rover set down on 15 Jan 1973 @ approx 25.85 N × 30.45 E in Mare Serenitatis near Le Monnier crater-ring, traversed 37 km for five months, returned 80,000+ pix.

Explorer 49 - USA 10 June 1973
Radioastronomy Explorer B in lunar orbit. (probably a deep space mission so located for radio silence)

Mariner 10 - USA 03 November 1973
Flyby of the Moon, returned pix, on way to flyby of Venus in 1974 and three flybys of Mercury in 1974, in solar orbit

Luna 22 - USSR 29 May 1974
Lunar probe, in orbit

Luna 23 - USSR 28 October 1974
Impacted in Mare Crisium on 06Nov1974

ASR Luna 24A - USSR 16 October 1975
4th stage failure (SL-12 Proton)

Luna 24B - USSR 09 August 1976
Last Soviet/Russian lunar mission. Lander & automated sample return set down @ 12.75 N × 62.20 E in Mare Crisium. Returned 170 grams & recovered 18 Aug 1976

Galileo - USA 18 October 1989
Robotic interplanetary probe on circuitous six-year trajectory with multiple gravity assists, launch delayed by Challenger disaster, launched from Shuttle Atlantis in LEO (STS-34) on IUS, high gain antenna failed, data tx on low gain
Flew by Venus once on 09 Feb 1990
Flew by Earth/Moon system twice during gravity assists in 08 Dec 1990 and 08 Dec 1992 on trajectory to Jupiter, discovered Aitken Basin on South Pole (largest impact basin in solar system)
Flew thru asteroid belt twice in 1991 and 1993
Active in circumjovian orbit

Muses A (Hiten) - Japan 24 January 1990
Probe flew by Moon 15 Mar 1990, reentered (Earth) 11 Apr 1993

Hagoromo - Japan 19 March 1994
Deployed from Muses A, contact lost after separation, in lunar orbit

Clementine 1 - USA 25 January 1994
Lunar mapper entered orbit 19 Feb 1994; detected possible signs of water at poles, spun out of control during burn to intercept near Earth asteroid 1620 Geographos on 07 May 1994, died, in solar orbit

Wind - USA 01 November 1994
Solar wind monitor. In 0.567 x 1.62 million km x 21.8 ° "distant prograde earth orbit". 32nd lunar flyby @ 7600 km on 19 Aug 2000. Science return from Moon

HGS-1 (was AsiaSat 3S) - USA 24 December 1997
Comsat stranded in useless transfer orbit by 4th stage malfunction (SL-12 Proton). Repurchased by builder, successfully rescued via double lunar flyby using new resonant orbital hopping theory. In GEO. Data returned from lunar flyby

Lunar Prospector - USA 07 January 1998
Mapped gravity & elemental distribution inc. hydrogen (water) with magnetometer, and alpha, gamma, & neutron spectrometers from low polar orbit; impacted on 31 Jul 1999 near the south pole. First human burial (sample of Gene Shoemaker's ashes) on another celestial body

Nozomi (Planet B) - Japan 03 July 1998
Orbiter will arrive 4 years late in Sep 2003 due to wrong burn during second slingshot by Moon. Data returned from lunar flyby

Mega Lunar Atlas

Mega Lunar Atlas
Above Image - Original image taken, created and produced by Humanoido astronomer, cartographer, astrophotographer and design artist at Singularity Observatory. The image shows thousands of vital key lunar features - many will be identified for navigation and handling of upcoming Moon missions. The highly anticipated Mega Atlas may also contain significant lunar colonization maps for the location of habitats, telescopes and future science missions. 

The Humanoido SPACE1 Mega Lunar Atlas is taking shape and will soon have a full mastery collection of cartographic images spanning the Moon's terrain visible from the Earth-facing surface. Expected for completion by 2024, in time for a SpaceX and Elon Musk mission to the Moon and the Dear Moon Mission, the bulk of the mapping work will be conducted during 2022. The atlas will also be used as navigation charts for SPACE1 return to the Moon with the Dynamonic Electrodynamic Stargate Explorer missions. The atlas is the mastermind creation of astronomer, cartographer, astrophotographer and design artist Humanoido.

— Humanoido is examining and sifting through thousands of Singularity Observatory lunar images and preparing the cache of those qualifying for his creation of a new mega lunar atlas book —

Pacific Lunar Extravaganza Dynasty

In the year 2021 (December), the Mega Lunar Atlas, a mission of the Pacific Lunar Extravaganza Dynasty, will zestfully continue. The atlas will serve the lunar community, the educational system, and may be offered as a free service to lunar colonists, their families, and all those associated with interests of the Moon, lunar exploration and colonization. The atlas will assist both professional and amateur astronomers, schools and technical institutes, and serve as a lunar reference for technical astronomical observatories across the world. It will also become a handy reference for selected features, such as finding lunar landings of man-made probes from the beginning of the space program and 1960/1970s boots on the Moon.

https://space1usa.blogspot.com/2021/11/space1-exploration-science-technology.html

Dynamonic Electrodynamic Stargate Explorer

Each year, the mode of space exploration was evolved and upgraded with new science, technology and invention. Space1 is proud to have carried the development of the safety rocket for eight years, now culminating with the epitome of an incredible vehicle for space exploration - the Dynamonic, which took part in the Lunar Extravaganza Dynasty (SPACE1's Pacific Lunar Extravaganza Dynasty is founded by Humanoido to support upcoming lunar bases, colonization of the Moon and continued exploration of the new world.)

https://space1usa.blogspot.com/2021/08/dynamonic-propulsive-invention.html

https://space1usa.blogspot.com/2021/08/dynamonic-test-run-to-moon.html

Space1 Exploration Science & Technology Explosion

In eight years of SPACE1 development of space technology, new space systems and missions
were developed and inventions led to the exploration of new space dimensions. SPACE1 is now
at the door on the cusp of exploring new worlds in the Earth-based Solar System - the Moon,
Mars, Ganymede & Moons of Jupiter along with far reaching developments of how humanity
can reach the stars and new planetary solar systems for colonization, exploration and
preservation of the species.

Space1 Exploration Science & Technology Explosion
The agenda for private industries SPACE1 Exploration Science Technology runs very deep with the rapid evolution progression of new discoveries and space exploration technologies. There are now so many missions on board, it has become a literal explosion of new space technology.

Since founding and conception in 2014 by Humanoido, technology inventor & rocket scientist, Space1 has progressed from small conventional liquid and solid fuel rockets to new technology vehicles. Owner of the only safety space rocket in the world, Humanoido has evolved systems to a massive Electrodynamic Dyno named Dynamonic Space Exploration System.

https://space1usa.blogspot.com/2015/12/welcome-to-space1.html

Dynamonic Electrodynamic Stargate Explorer

Each year, the mode of space exploration was evolved and upgraded with new science, technology and invention. Space1 is proud to have carried the development of the safety rocket for eight years, now culminating with the epitome of an incredible vehicle for space exploration - the Dynamonic, which took part in the Lunar Extravaganza Dynasty (SPACE1's Pacific Lunar Extravaganza Dynasty is founded by Humanoido to support upcoming lunar bases, colonization of the Moon and continued exploration of the new world.)

https://space1usa.blogspot.com/2021/08/dynamonic-propulsive-invention.html

https://space1usa.blogspot.com/2021/08/dynamonic-test-run-to-moon.html

The Dynamonic is now renamed to the Dynamonic Electrodynamic Stargate Explorer.

https://space1usa.blogspot.com/2021/11/space1-dynamonic-stargate-explorer.html

Pacific Lunar Extravaganza Dynasty

The remainder one month in 2021 will be dedicated to ongoing development of Pacific Lunar Extravaganza Dynasty. Humanoido is planning a personal private space mission to Jupiter's moon Ganymede via the newly named Space1 Dynamonic Star Gate. This will likely happen after a few more trips to the southern terminator of the Moon to improve the systems, do additional exploration, and prepare for journeys to other solar system objects. We believe these space trips will supplement missions made by starship, superheavy, and Elon Musk SpaceX plans. Humanoido is the long time veteran astronaut appointed Lunar Astronaut to conduct these missions including those entailing lunar orbit southern colony reconnaissance and boots on the Moon excursions via Dynamonic Electro Dynamic Star Gate Explorer technology.

In the year 2021 (December), the Lunar Atlas, a mission of the Pacific Lunar Extravaganza Dynasty, will zestfully continue. The atlas will serve the lunar community, the educational system, and may be offered as a free service to lunar colonists, their families, and all those associated with the interests of the Moon, lunar exploration and colonization.

Lunar Extravaganza Dynasty

Pacific Lunar Extravaganza Dynasty

AUGUST 1, 2021

SPACE1's Pacific Lunar Extravaganza Dynasty is founded by Humanoido to support upcoming lunar bases, colonization of the Moon and continued exploration of the new world.

Above: Full Moon by Humanoido

SPACE1 Industries Pacific Lunar Extravaganza Dynasty is the open door to Lunar exploration and colonization in unique ways during the 21st Century. Beginning with small jaunts launched to the Moon during August of 2021, the Dynasty will continue to escalate operations and introduce supporting lunar projects. Founder Humanoido is already working on a Full Lunar Map in the first cartographic project. Such maps will be issued to colonists, explorers, and will assist in the search for lava tubes, exploration journeys, lunar rover pathways, and other uses.

Dynamonic Test Run to the Moon

Lunar Extravaganza Dynasty

Dynamonic Test Run to the Moon

by Humanoido

Breaking News! Tuesday August 24 2021

Around the night of the Blue Moon, SPACE1 launched its Dynamonic-based space system towards the Moon and back again, in an unprecedented test at searing ultra high electro dynamo speed.

— Once in a Blue Moon —

Above: Moon image by Humanoido

The private based company, SPACE1 Industries, working out of the Pacific, operated the flight from its primary launch center. The minimal space flight run began at ground zero and quickly proceeded to move towards lunar orbit where a massive amount of lunar regolith suddenly appeared in vivid but exceptionally bright crisp detail. To conserve resources, the craft was homed and the test concluded. These small but increasing jaunts are based on clear atmospheric conditions caused by the gravitational forces of a Full Moon acting upon the ocean to create High Tide and a resulting high zone increase in atmospheric pressure, driving out clouds and overcast conditions.

The mission is part of SPACE1's Lunar Extravaganza Dynasty, designed to support upcoming lunar bases, colonization of the Moon and continued exploration of the new world. 

Orbital Launch on Standby

The power and glory of a SPACE1 launch system is a sight to behold

Massive Orbital Launch on Standby
As the weather percolates through its many varied seasonal cycles, SPACE1 has prepared the most massive and comprehensive manned orbital test flight ever conceived and is preparing to send it into the deepest unknown realms of Solar System space to unravel the cosmic mysteries that have existed since the beginning of time

SPACE1 INDUSTRIES Flight Dynonomic 10 has millions of dollars invested, with new equipment and gear to not only navigate the slipstream of deep space, but to go farther and faster than anyone has gone before. Humanoido's Fractional Light Speed spacecraft makes such missions possible.

Funding SPACE1 privately, Humanoido has invented and developed one of the most powerful and safest convenient space travel systems in the history of manned space flight. Enter into the Dyno or Dynamonic space travel system for the greatest convenience, fastest flight times, and a time frame of rapid reusability.

— with missions continuing to the Southern side of the Moon, flights to Mars every two years, and a very deep space mission to moon Ganymede around the largest planet in the Solar System, Jupiter —

 Ganymede is the largest moon in the Solar System, trumping Earth's Moon with a more suitable amount of gravity and a large ocean of water under the ice crust. SPACE1 is preparing a new kind of habitation base on this remote moon for occupation of an unspecified amount of time. Scientific missions will include a deep space relay telescope, CR habitation, global character selection orbital perspective penetration mapping and the development of a new cartography division. Heat may be experimentally extracted from massive gravitational units which flex under nearby Jupiter's great gravitational fields and frictionally produce free heat and electricity to energize the colony and to melt the ice crust for water extraction.

Space1 Spacecraft Laser

LASER MOON BEAM

Space1 Spacecraft Laser is now a Reality
SPACE1 has completed its full lasering system, a powerful red ruby light amplification by stimulated emission of radiation

SHOOTING LASER MOON BEAMS The final item completed is a full laser mechanical mount system which is accurate enough in positioning to aim a beam onto the surface of the Moon. Bounding a LASER beam onto the Moon can result in a private and secure communications link.

Multiplex Reality Spacecraft

SPACE1 New Extreme Multiplex Reality Spacecraft
Humanoido at Space1 invented the Extreme Multiplex Reality Spacecraft, a space safety trans- position vehicle using new high techn to accomplish space missions in a more convenient way.

The Extreme Multiplex Reality Spacecraft EMRS is the most extreme and advanced space vehicle ever created by SPACE1 since large rocket program development began in 2014.

The new entry is a paradigm shift of the highest technology from many scientific fields. The goal is to achieve the convenience of space travel initiated from home using a sophisticated invention apparatus made simple that pushes light speed at baseline costs.

Operating on the purity of space, time, and light dynamics, the EMRS is the fastest spacecraft ever built by SPACE1 and will serve well to explore the inner and outer Solar System. Future missions are scheduled for the Moon, Mars and Ganymede.