Singularity Observatory Telescopes in Earthquake

Earthquake Telescopes
Take a Massive Royal Beating!!!
It was shocking at how hard mother nature shook the steel and granite observatory complex as its contents were beaten and slapped around during the recent earthquake that affected the entire pacific ocean volcano.

Lucky no tsunamis ensued. However, how did the new telescopes at Singularity Observatory hold up during a number 6.2-7 earthquake which shook the largest and massive steel and granite observatory like it was child's play?

Two telescopes were affected by the quake. One telescope, the largest and most heavy, was shaken like all hell broke loose. Due to the combined tonnage of telescopes, you cannot grab it or it would be extremely dangerous - all one can do is hang on for their life to keep from being thrown overboard, above and beyond the steel rail guard and down to impact, splat, upon the hard earth thousands of feet below. Of course let's hope the telescopes stay put as well and don't topple overboard. But something very strange and eerie happened during this event.

— "Let's hope we don't slide into the ocean!" Shouted Humanoido who used all his strength to hold onto the observatory' built-in laboratory instrument bench! —

Takes a licking and keeps on ticking? The largest 1,800-inch diameter telescope (46 meters wide or 151-feet) was held to the observatory foundation by its own sheer tonnage weight and it's judicial placement onto the anti-vibration device, which apparently helped stabilize the telescope in one place. This device came directly from high technology and rocket science. Observatory Director Humanoido measured the skid of the telescope mounting relative to the anti-harmonic device on the observatory foundation and discovered something very strange. There was no recorded skidding! This absorption of vibrations by the physics of harmonic control saved the telescope.

What about the big baby?  — this telescope is a megalithic monstrous 1,325-inches in diameter, weights about three times less than big brother, and was temp stowed in a possibly precarious vertical position. Did it topple, slide, crush, fold, skew, dent, crack or break? The big baby survived as well, not from the installation of any anti-harmonic device, but only due to a special material thick cover plate that was equal and opposite to the ceramic mount foundation with an extreme linear coefficient of sliding friction. This mechanical friction gripped and held the telescope in one basic position not allowing it to significantly or measurably slide. If it slewed yonder, momentum might throw it into oblivion and/or shatter its precision multiple fourth order differential glass surfaces into millions of shards. Luckily that did not happen. The 1,325" or 34-meters telescope (112 feet wide) remained safely parked, eagerly awaiting its next sky mission.

https://space1usa.blogspot.com/2019/03/space1-rocket-antivibration-device.html
https://space1usa.blogspot.com/2019/03/space1-anti-harmonic-devices.html
https://space1usa.blogspot.com/2019/03/space1-rocket-antivibration-device.html
https://space1usa.blogspot.com/2019/04/space1-big-earthquake.html

Space1 Rocket Antiharmonic Device

Don't Get Vibrated Out the Hatch Window!
Rocket Anti-harmonic Device
It's an invention of the greatest magnitude that engages the rocket using the multiple Anti-harmonic units and calms the craft to a smooth as glass flight.

Multiple Anti-harmonic units are placed around the circular perimeter of the metal Electrodynamic Rocket body to absorb the induced harmonic vibrations and stabilize flight.

When the Moon Camera is mounted on the rocket, along with other reporting and monitoring camcorders, their results are expected to become much improved in terms of sharpness and clarity, with less image motion movement. Rocket Anti-harmonic devices are entirely chemical and mechanical based, use no electrical power and physically adapt directly onto the E Rocket. Anti-harmonic devices are developed specifically for the Electrodynamic E Rocket with the Electromag engine and do not fit Rocket X which uses SPACE1's Herculean Engine. From Physics of vibration, these differing rocket engines have varying fundamental harmonics. As the next plethora of manned spaceflight launches by SPACE1 will be geared up to landing a man on the Moon and Mars, using the E Rocket, the greatest comfort and photographic clarity will be appreciated.

Skyscraper as Observatory

The Skyscraper as Observatory 
A Skyscraper Observatory is different compared to a conventional domed observatory. It has protective sub walls and a partial sub ceiling, yet remains in full view of the night sky in a selected orientation such as East to South plus East to North inclusive of the Zenith.

Not any skyscraper will work, as tall narrow structures are often in great constant motion and vibration due to the ruler effect. Some floors as low as level 6 are known to cause motion sickness. These narrow skyscrapers amplify small motions, earthquakes, local traffic, trains, buses, construction sites, and underground subways. Some telescope companies offer anti-vibration pads to help reduce vibrations. These may work best at specific harmonics.

The best structures are newer, more expensive, quad wide, stable, and don't have the problems associated with the former. Many of these new quads are so well built, top-most safety roof access is granted for spectacular nighttime all-sky observing. New quad designs also have elevators leading to the top, while decades and older buildings have elevators that may stop and require an additional six flights of stairs to reach the top! Older skyscrapers may have roofs that are not safe near the edges. An errant high gust of wind could potentially lift a bystander and cause a plummet to the death! Many are banned from going rooftop due to a form of suicide. Observe all roof-top precautions.

Some trends in skyscrapers are notable. Oldest buildings had windows covered in metal bars. These were often modded over the years to include the attachment of bar cages to hold potted plants, a few items, and a small clothes line. The next generation skyscraper included a small narrow deck for a washing machine capable of supporting more substantial weight. These designs spawned many variations of patio/decks. (curved, rectangular, open, closed, caged, partial walled, ceiling, no ceiling, sides, no sides, fenced, blocked...) Following, modern skyscrapers were born of two designs. One design has no deck with the washing machine located indoors in the kitchen, and another design has one or two usually opposing larger decks. Generally the smaller deck is for the washing machine and hanging up clothes while the larger deck holds an unobstructed majestic skyline view. It's this latter design that's perfect for a skyscraper observatory.

Space1 Humano Spaceman

Is Humano Spaceman the first not full machine, not full human, to launch on board the USS Pioneer into the void of space?

Humano will have some approximations in making the conversion from human to machine with four main functions - vision, feeling, hearing and exoskeleton. 

Humano will be dedicated to preserving some basics of human life with sensors to emulate eye vision, ear hearing, the ability to sense and feel weightless, and the ability to feel G-force and potentially detect the experience of rocket vibrations. At this time, Humano is not large enough to hold the Big Brain or the Big Brain is not miniaturized enough. The initial humano will be cloned and designed as a recording sensor to develop and perfect this aspect of functionality. Humano is of the same class of space travelers as Unary and Nort.

https://space1usa.blogspot.tw/2018/01/space1-space-travelers-nort-unary.html