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(wow) Words Of Wonders Level 707 Answers
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Jonathan H. Jiang 1, * , Hanji Li 2 , Matthew Chong 3 , Qitian Jin 4 , Philip E. Rosen 5, † , Xiaoming Jiang 6 , Kristen A. Fahy 1 , Stewart P. Taylor 7 , Zhihui Kong 8 , Hah 9 by Jamila and Zhong-Hong Shu 8
Received: March 1, 2022 / Revised: March 22, 2022 / Accepted: March 23, 2022 / Published: March 25, 2022
Toy World Magazine October 2021 By Toyworld Magazine
He will develop an updated message in binary code to transmit to alien intelligences in the galaxy. The proposed report includes basic mathematical and physical concepts for the creation of universal means of communication, followed by the biochemical composition of life on Earth, the temporal position of the solar system in the Milky Way relative to known globular clusters, as well as information on digital representations. . The Solar System and the Earth’s Surface. The message ends with digital images of the human form with an invitation to respond to any intelligence received. Calculations of the best times during a given calendar year are given for possible future transmissions in a selected area of the Milky Way from the Five Hundred Meter Spherical Radio Telescope in China and the SETI Institute’s Allen Telescope Array in Northern California. It has been proposed as the most likely place for life to evolve. These powerful new beacons, successors to the Arecibo Radio Telescope that transmitted the 1974 message on which this extended communication is based in part, can carry Arecibo’s legacy into the 21st century with this secure communication of Earth’s technological civilization.
Ever since the first faint spark of emotion appeared in the primitive minds of modern man’s distant ancestors several million generations ago, we have attempted to communicate. The difference between extinction on the African field and eventual takeover of the planet is apparently cooperation facilitated by primitive grunts and gestures. When survival gives way, achieved at such a cost, humanity’s path to civilization is open. With the breakthrough of written language, mathematics and scientific methods, it was possible to create generations of complex ideas, concepts and innovations. Driven by vast exploration, ancient explorers gazed at the stars that passed through the night sky and inevitably faced the deepest question of all: are we alone, or are these points of light in the sky home to others who may yet encounter them? they know? It would take five thousand years to go from using symbols as simple as Sumerian cuneiform to the large radio telescopes of the 20th and 21st centuries—and with them the means to finally start looking for an answer.
Even before the first detection of planets was confirmed in 1995, attempts to listen for signals from an intelligent extraterrestrial source as well as to transmit their own signals continued [1, 2, 3]. Despite the first discovery of a pulsar in the 1960s and several false alarms, such as the “WOW signal” in 1977, we are listening with increasingly sophisticated technology for every manifestation of a distant “other”. We also broadcast signals by radio and the very slow physical probes Pioneer and Voyager to any entities that might share the galaxy with us. Among these early bold attempts is the Arecibo message, which was beamed in 1974 as a radio signal from a 126-mm-wavelength projector toward the globular cluster M13, about 25,000 light-years away. Arecibo’s message-carrying electromagnetic waves are limited by the universal speed limit of light In a vacuum, less than 0.2% of the distance traveled to their intended destination. Although the almost unfathomable vastness of interstellar space can be humbling, it should be taken to heart as a challenge rather than an obstacle to humanity’s journey to communicate beyond our home world. As Carl Sagan eloquently put it, we are truly “stellar matter following the stars.” Communication with other cultures is the logical goal of Sagan’s statement [4]. The sky above us today is no different from the world on the African horizon two million years ago, inviting our best efforts to find the answers we seek instinctively, with new convictions and better means.
But this begs the question of whether we can provide an updated and stronger message than those of the past, but should we? The decision to send a new message into space has been hotly debated since the pioneering work of Carl Sagan, Frank Drake and several others in the SETI community who advocated communication with a possible ETI in the galaxy. Arguments against permanent communication are explored and recorded in the record (https://setiathome.berkeley.edu/meti_statement_0.html (accessed 23 March 2022)): Will the ETI be peaceful, and if so, essentially human? Does this mean that a war with ETI is inevitable and could cause the extinction of other living species? However, logic suggests that even species that have achieved sufficient complexity to achieve communication across space are likely to achieve a high level of cooperation among themselves, and thus know the importance of peace and cooperation. By the same token, it is likely that every ETI we have encountered has already successfully bypassed the self-destruction of the “Great Filter” [5] as well as achieved interstellar communication capability. Thus, the passage of the Great Filter ensures that ETI and humanity are unlikely to come into conflict in a way that would lead to the destruction of either civilization – if only through mutually assured destruction. Furthermore, we believe that the advancement of science that can be achieved by continuing this work, if communication is established, will far outweigh the above concerns.
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In conclusion, it should be added that the common goal of our culture should be to help lead an open discussion on this topic towards maximum informed consensus, and it is among the goals of this study. Let’s make sure that we as a species make the best decision when considering whether to actively pursue SETI by engaging with Extraterrestrial Intelligence (METI) [6]. Detailed communications, a well-planned target area for transmission, and the technical details of two of the world’s largest and most advanced facilities needed to conduct such transmissions in a directional manner support this effort. In this spirit of continued efforts on METI, e.g. [7, 8], we advocate progress with improved technology and messaging.
In southwest China, the Five Hundred Meter Spherical Radio Telescope (“FAST”), also known as Tianyan, is the successor to the recently decommissioned Arecibo radio telescope. FAST has an illuminated aperture of 300 m, and its overall performance and sensitivity are several times higher than Arecibo and other existing radio telescopes [9, 10]. FAST consists of 2225 actuators and cable networks that form an active complex connection system of reflectors. A 30-ton power cell controlled by six cables is located about 140 meters above the reflector. In addition, the SETI Institute’s Allen Telescope Array (“ATA”) in Northern California is also operational and will consist of more than 350 individual satellite dishes that work together to receive and transmit signals using advanced technology. It is understood that both SETI’s FAST and ATA currently receive only radio telescopes. Both may be updated with future improvements to allow messaging as well. If it’s that deep, a
