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/

Space1 Radiation Sail Spacecraft

SPACE1 Electromagnetic & Particle Dynamics Radiation Power Spacecraft

The design of a different type of lightsail spacecraft is being examined by SPACE1 Industries, for a future method of transportation.

The sail is driven by the concentrated focus of a bright source of radiation particle waves impinging on the spacecraft sail. The sail is made of a special material on one side designed to repel radiation. After a time of impingement, the craft can approach light speed and make journeys to distant planets and solar systems. Several types of radiation are being examined - the radiation from the sun, supernova, interstellar, planetary (Jupiter) and cosmic.

Space1 Artificial Planet Radiometry Anatomy

Space1 Artificial Planet Radiometry Anatomy
Typical SPACE1 Artificial Micronic Planet in Radiometry Electromagnetic Spectrum for Analysis

SPACE1 Artificial Planets are given their own radio spectrum due to emanation of transmitter radio wave telemetry harmonics.

This creates a specific radiometric polarization pattern for planetary analysis using radio telescope receivers. Internally, the planet contains specific types of radiation antennae for experimentation to determine propagation and range. There are different planets with different radio signatures. Internal skew planar, or cloverleaf antennas are omnidirectional circularly polarized antennas that are constructed of a collection of wire lobes connected to the tip of a length of coaxial cable. As the planet is designed to transmit video to record space time compression evolution, these antennas are almost exclusively used.

Space1 Index Micron Planet (Updated March 17th 2020)
https://humanoidolabs.blogspot.com/2020/03/big-brain-index-micron-planet.html

Space1 Mars Mission Safety

Elon Musk has a proposed future SpaceX Starship & Superheavy booster as seen in this spectacular
illustration of chromed rocket steel by Gravitation Innovation.

Choose your rocket mission design carefully
SPACE1 Safety Mission to Mars
While SpaceX is preparing the development of Starship and Superheavy to land supplies and colonists on Mars, the risk of such a mission is very high. According to Elon Musk, "people will die."

SPACE1 is also preparing for a mission to Mars, with a different approach using its Super Safety Rocket that protects the life of humans throughout all parts of the mission through the use of Human Augments.

— choose your rocket mission design carefully, your life may depend upon it —

How human-safe is a SPACE1 Mars mission?

* 100% protection from solar radiation
* 100% protection from deep space radiation
* 100% protection from rocket anomaly
* 100% protection from long term space travel biological effects
* 100% protection from dangers of landing
* 100% protection from reentry

Protection also includes the effects of temperature, pressure, vacuum of space, poisonous air, G force, and other effects.

Space1 Augment Transformation
https://space1usa.blogspot.com/2019/09/space1-space-augment-transformation.html
Space1 Augment Autonomic System
https://space1usa.blogspot.com/2019/09/space1-augment-autonomic-system.html

Space1 EM Name

EM Renaming - One Machine Three Names
Space1 has released additional names for the EM today, from Elevation Machine to Electromagnetic Radiation Machine and Electrodynamic Machine, due to the nature of its space flight functioning faster than a speeding bullet to that of an electromagnetic radiation bullet. The abbreviated acronym EM remains unchanged as the names remain interchangeable.

Space1 Thermionic Penetrator

Illustration shows a semi-charred thermionic planet and one Thermionic Penetrator in orbit. In the foreground, a thermionic space station remains in a higher orbit to supply and re-station the thermionic craft after its mission is completed.

A thermionic solar system where wild thermionics have engulfed a planet and its moon. Space
tourism to thermionic systems is extremely exciting where active and spectacular blazing
colorful visions of widely explosive vortexes and extreme eddies are constantly erupting and
changing.

Take a wild ride in the Thermionic Penetrator to new worlds unatainable by conventional space travel!

Humanoido has invented the Thermionic Penetrator for Space1, a craft designed to break through the intense thermionic emission barriers that exist on planets orbiting very close to their stars. The Thermionic Penetrator can function within a realm of intense heat, hot enough to melt metal. The star craft is composed of active layered nano-technology shielding designed to withstand intense thermal radiation for sustained periods of time.

Twenty to fifty years of additional testing and development are a prerequisite to the project. First tests will likely be in the vicinity of Venus and Mercury, two extremely hot planets orbiting close to their sun. The average temperature on Venus is 864 degrees F. and Mercury is 800 degrees. The melting point of lead is 621.5 deg.

It's currently thought that spinoff technology from the Mark 1 Thermionic Penetrator would lead to a super craft that could venture deep into a sun's photosphere where the travel experience would be wildly fantastic with a myriad of changing colorful photonic oceans of waves, swirls and eddies. The craft, as a Photospheric or Photonic Penetrator, could serve space tourism with fantastic missions to the sun.

Space1 Index
http://space1usa.blogspot.tw/2015/12/space1-index_16.html
Space1 Index Big Brain Site Prior to 2014
http://space1usa.blogspot.tw/2017/05/space1-big-brain-index-of-space.html
Space1 Home
http://space1usa.blogspot.tw/
Space1 Profile
http://space1usa.blogspot.tw/2017/03/space1-space-profile.html

Humanoid Robots Home
http://humanoidslabs.blogspot.tw/
Humanoid Robots Index
http://humanoidslabs.blogspot.tw/2017/02/humanoid-robots-index.html

Big Brain Home
http://humanoidolabs.blogspot.tw/
Big Brain Index 1
http://humanoidolabs.blogspot.tw/2016/12/fill-brain-project-searchable-thread.html
Big Brain Index 2
http://humanoidolabs.blogspot.tw/2016/12/big-brain-web-site-index.html
Big Brain Timeline
http://humanoidolabs.blogspot.tw/2016/12/big-brain-timeline_1.html
Big Brain Contributions
http://humanoidolabs.blogspot.tw/2016/12/big-brain-contributions_13.html

Space1 Lunar Outpost

Space1 has long range goals of providing tourism to the Moon and a Lunar Outpost. Typical depictions of lunar domes would be different, probably below the lunar soil to help avoid solar radiation. The Moon does not have a thick enough atmosphere to protect from damaging solar wind and cosmic radiation, or incoming meteors and asteroids. The skin on a dome or craft likewise cannot fully stop DNA damaging radiation and the thickness of several feet of lunar soil or water is required for protection. The Moon will need a space weather monitoring system to keep tabs on solar activity and celestial events as astronauts work on the surface and operate heavy mining equipment, and likely service machinery and robots. For now, S1 is designing outposts in space where space tourists may visit, and the rockets to go there. Tourist rockets have a safety design to protect tourists, opening up space flight to everyone in ways never seen before.

Space1 Rocket Radiation Protection

Giant solar flare prominence poses a radiation threat to space travelers

SPACE1 ROCKET RADIATION PRO-
TECTION

Trips into deep space and those into the limits of space pose a dangerous threat to astronauts in the form of radiation.

The earth's atmosphere and magneto-sphere helps protect from dangerous radiation from the sun, solar particles, solar flares, xrays, and farther out beyond the solar system - incoming cosmic rays.

Space1 is committed to a perfect safety record and will use space hardened equipment and materials where necessary.

The entire concept of the Safety Rocket is designed to protect astronauts.

Special chosen flight paths using suborbital rockets are conducive to this protection as well.

Even in low Earth orbit, cosmic radiation is nowhere near as harsh as it is elsewhere in the solar system there are benefits from some of the protective effects of the Earth.

Humans will have radiation protection and this includes protecting everything from flight computers to artificial life forms that may also be on board during tourist missions.

The methods of becoming space hardened are not too complicated. For microprocessor chips and boards, and other sensitive devices, small leaflets of lead may be imposed. Water may also surround either occupants or equipment. However, water is heavy and its use is somewhat doubtful.

Another method is the angle of incoming particle rays which will include angular compensation to modify particle dynamics and their trajectories.

A technique known as RM or risk minimization, by limiting the duration of the space flight, can become an important factor as well.

Cosmic radiation originates from various locations in the Universe. HZE particles are the nuclei of heavy elements moving at very high velocities, and are largely created when a star explodes in a supernova. Other high-energy particles are ejected from the sun during events called coronal mass ejections.

SPACE1 TECHNIQUES OF RADIATION PROTECTION
* Lead Lining
* AntiRadiation Fabric
* Particle Dynamic Trajectory
* Hydrogen Block
* Water Lining
* RM Risk Minimization