Located in the Heart of Hong Kong central of Victoria Harbour in which locate looking at the iconic Megatroplis HongKong Island city landscape from the opposite is the Hong Kong Space Museum 香港太空館 in which located at 10 Salisbury Road, Tsim Sha Tsui, Kowloon, Hong Kong SAR, China –People’s Republic of China.. in which is one of the most international iconic buildings architecturally due to its hemispheric round dome in which is iconic known as one of Hong Kong’s local most cherish bread pastries the Pineapple Bun – Bolo Bao due to the pineapple ceramic texturing tiles of the dome structure that resembles the delicious texturing of the Pineapple Bun .. In which on In June 2014, the Hong Kong Government listed the pineapple bun as a part of Hong Kong’s intangible cultural heritage. … Despite the name, it does not traditionally contain pineapple; rather, the name refers to the look of the characteristic topping (which resembles the texture of a pineapple)……
On 25th September 2022 on 1500 towards 1600 Hong Kong SAR – Beijing Time, Sunday competition, naming and submission of proposal, and the 20 selected Exoplanetary systems…..When we look up in the sky, countless stars can be found shining in every corner. In the past, we only knew about the planets in our own solar system. Today, thanks to technology, the existence of extrasolar planets is well-proved. Now, we have the opportunity to name these exoworlds! The International Astronomical Union (IAU) has released 20 Exoplanetary systems to be named by the public around the world under its naming competition – NameExoWorlds 2022. In the 2019’s competition, a star system was named as Lionrock (host star HD 212771) and Victoria peak (exoplanet HD 212771b) by residents Hong Kong SAR –China, People’s Republic of China people.
To know more about the details of the competition, naming and submission of proposal, and the 20 selected Exoplanetary systems, you are welcome to join the “The NameExoWorlds 2022 Global Naming Competition – Announcement” in the Hong Kong Space Museum at the following time. The announcement will be held online in real-time too.
During the week of 20th May 2022 In an announcement CNSA – China National Space Administration– Chinese Academy of Sciences will launch an optical telescope with a diameter of 1.2 meters to search for habitable exoplanets in the immediate vicinity] Chinese scientists have proposed a sky survey program through space telescopes to search for habitable terrestrial planets outside the solar system about 32 light-years away from the earth. If implemented, this will be the first international space exploration mission dedicated to finding habitable terrestrial planets around nearby sun-like stars.
Ji Jianghui, a researcher at the Purple Mountain Observatory of the Chinese Academy of Sciences and the project leader of the “Nearby-habitable Planetary Survey Program”, introduced that the “Nearby-habitable Planetary Survey Program” will observe about 100 sun-like stars about 32 light-years away from the earth for a long time, which is expected to be the first time. The discovery of habitable zone terrestrial planets around them, especially “Earth 2.0” (planets with a size, orbit and environment very similar to Earth), achieve a major breakthrough in “from 0 to 1”. It is estimated that this plan is expected to discover about 50 terrestrial planets. Scientists will give information such as the number, true mass and three-dimensional orbits of habitable planets and “super-Earths” (exoplanets several times to 10 times the mass of Earth) through a detailed census of the nearby planetary systems in the solar system.
According to the plan, a high image quality, low distortion, high stability optical telescope with an aperture of 1.2 meters will be sent into the Halo orbit of the second Lagrangian point of the Sun-Earth system, and will maintain stable operation in this orbit for at least 5 years Time, during which 100 sun-like stars will be scientifically detected, and each star will be observed no less than 50 times.
Chinese Academy of Sciences located in 52 Sanlihe Rd., Xicheng District, Beijing, China (100864) – China -People’s Republic of China Images and visuals are from CNSA- China National Space Administration also from there respectives-
Currently中国空间站 Previously On December 2021, the Belt and Road InitiativeCNSA –China National Space Administration CSS China Space Station in which on a three to six months setting up a new home of the first three Shenzhou 13 in which spending up to on for the further construction and verifications of the systems of the CSS –China Space Station 2021 launch calendar in which currently the three Takionauts current Shenzhou 13 …… Preparations for the six months of extension of the China Space Station In which the currently it remains awaiting for the crew of setting up home in conducting fun scientifically onboard中国空间站.. China Space station ….. with among with more Shenzhou crew to arrive to finished construction of the China Space Station in which there’s more additional modules that could be detach and reattach itself as mission criteria required.
Featuring the Sky Survey Optical Module has both sky and land survey capabilities, and can also be used as a remote sensing satellite] The Sky Survey Optical Module is equipped with a large telescope with a diameter of 2 meters. The observation wavelength range of the Sky Survey is 255~1000 nanometres, covering from, and visible light to near-infrared band. The optical module of the Sky Survey will not only fill the gap in my country’s space astronomical observation, but also achieve a resolution close to that of the Hubble Telescope and a field of view two orders of magnitude larger than that of the Hubble Telescope, and can quickly complete large-scale multicolour imaging and seamless spectral surveys. .
The superiority of the Sky Surveyor’s optical cabin is inseparable from its innovative design. In addition to a Cook-type off-axis three-reflection optical system with a diameter of 2 meters, the optical cabin also adds a folding mirror to facilitate switching between different optical loads, focusing, and precise image stabilization. The off-axis three-reflection is an excellent optical design. It is not only conducive to the realization of a large field of view, but also has no unavoidable optical path obstruction in the coaxial reflection optical system of the Hubble and Webb telescopes. Advantages, there is no diffraction problem caused by mirror support, and the optical imaging quality is higher. The Sky Survey Optical Module will also be the first space telescope in my country to use active optics. By actively adjusting the deformation of the secondary mirror, the imaging quality of the telescope can be further improved.
In addition, the optical module of Tian Xun can not only fly autonomously, but also has high attitude adjustment accuracy, and also has the ability to actively rendezvous and dock the space station. It can receive propellant replenishment while docked at the space station, and maintain, repair and upgrade equipment. Compared with the Hubble Space Shuttle that needs to be launched for every maintenance, the co-orbit flight of the Sky Surveyor’s optical module and the orbit maintenance design of the space station have better maintenance efficiency and cost-effectiveness.
In addition, the optical cabin also has the ability to survey the sky and land, and can be used as a remote sensing satellite. This design concept is a world first.
According to the plan, the optical module and the space station will fly in the same orbit, which is mainly used for astronomical observation, taking into account the ability to observe the earth. It can provide a sky survey observation capability with a resolution roughly equivalent to that of the Hubble telescope but with a field of view more than 300 times larger. The performance of the optical system is also one of the few in the world’s new generation of space telescopes. In addition, the sensor of the optical module is also remarkable. It is equipped with five payloads, including a sky survey camera, an integral field of view spectrometer, a multi-channel imager, an exoplanet imaging coronagraph, and a terahertz receiver. In addition to the fast survey capabilities of the exoplanet imaging coronagraph, it also adds the ability to detect and study exoplanets.
The main task of the optical module of the Sky Survey is to survey the sky. The researchers plan to conduct multi-color imaging observations of 17,500 square degrees, as well as seamless spectral observations in the same sky area, as well as 400 square degrees of multi-color imaging deep-field observations. and seamless spectral deep-field observations in the same sky region.
In addition, it will also study the formation and evolution of cosmic celestial bodies through observations of galaxies and active galactic nuclei, as well as nearby universes and stars. It can also be used to observe a large number of faint and small celestial bodies in the solar system, as well as observe and study transient sources. In the next 10 years of sky survey and observation missions, the sky survey optical module is expected to rely on its excellent performance to observe and analyze and reveal the mechanism of the accelerated expansion of the universe, and even bring unexpected major scientific discoveries.
On a Spring Florida Wednesday 18th April 2018, SLC 40- Space Launch Complex 40 launching of Space XFalcon Nine Reusable, with those nine mightily Merlin Engines from Cape Canaveral Air Force Station in which is about least than fifteen Kilometers away from that NASA-KSC’s Iconic Launch Complex 39A that launched the Mighty Saturn five rockets also the STS-Space Transportation Systems – The Space Shuttle..
#SpaceX #NASA | #TESS joyed excitingly as the #FalconNine says “Of Course I still love you” ……………. into eight minutes and twenty seconds.. landed..
On that Wednesday, it launch the Daughter of Kepler TESS- Transiting Exoplanet Survey Satellitein which its parent was design as the Exoplanetary hunting telescope that scanned the universe in the Milky way Galaxy for Exoplanetary systems.. with new systems onboard it’s expected to find scan utilizing the transiting dipping diming method of finding Exo-Planets in outside Exo- system orbiting around the its parent star.. In which with higher greater degree of magnification of finding smaller rocky Exo-planets than of the Sol-System of Earth or smaller.. Than Kepler did…
As Falcon nine launched towards MECO- Main Entry Cut Off… Towards separations between first stage and the second in which two minutes and thirty two seconds…. Then six minutes and twenty nine seconds into the launch the falcon nine reusable stage one begins is re-entry burn then carefully automated guided towards the Atlantic Ocean Drone Ship “Of Course I still love you”.. in which with the live footage shows two streams from the Falcon Nine as it carefully lands relearning those steps also the awaiting for where landing on the SpaceX livery marks the spot..into eight minutes and twenty seconds.. landed..
On a Spring Florida Wednesday 18th April 2018, it’s the second attempt of launching of Space XFalcon Nine Reusable, from Cape Canaveral Air Force Station launching from SLC 40- Space Launch Complex 40 in which is about least than fifteen Kilometers away from that NASA-KSC’s Iconic Launch Complex 39A that launched the Mighty Saturn five rockets also the STS-Space Transportation Systems – The Space Shuttle..
TESS’s launch window opening on previously on Monday 16th April 2018 from at 1832 hours EDT afternoon eastern daylight time on which that date of the launch was scrubbed due to many sources points to fault in the falcon nine rocket’s GNC- Guidance and Navigation and Control systems in which that the data regarding to the fault issue would be repaired by East Coast Florida Wednesday launch..
Launching from Space Launch Complex 40, with SpaceX traditions of landing off shore with Drone Ship “Of Course I Still love you” that stationed in the Atlantic Ocean…… in which previous two launching s were non-traditional which resulted a Non Drone ship landing but an Oceanic landing to see how it will performed also experimentally what other lessons needed learning with modifications later on.. after two minutes and thirty seconds into the flight both stages separate in which eight minutes and twenty seconds the Falcon Nine first Stage Carrier rocket lands on the Atlantic Ocean Drone ship …..
Manufactured by Orbital ATK.. launching into highly elliptical orbit approximately, This time the payload is a singular, featuring the two year operational used TESS- Transiting ExoPlanets Survey Satellite in which subjectively replace the role in which Kepler Exo Planet finder probe…. As it’s is NASA’s next generation Exo Planetary finder… TESS is in collaboration with NASA led proposal of Massachusetts Institute of Technology Kavli Institute for Astrophysics and Space Research… the provisionment of TESS is to observational data gathering of potential planets of orbiting its host, parent star of using finding light tail dips in the light as the Exo planet transits and dipping of the light intensity.. in which orbiting around.. TESS is expected to data catalogued thousands of candidates with different various of stars, planets with a refined methods of looking for smaller earth size planets in which are rocky types…..
