Setki Pricelov Dlya Stalker

Setki Pricelov Dlya Stalker

Description: Concept for an Outer Solar System Flyby Second-Generation Microspacecraft (SGM). In this design, the spacecraft autonomously provides imaging and spectroscopy of objects in the outer solar system for spacecraft solar ranges of 3 to 39 Astronomical Units (AU) and Earth ranges up to 38 AU. Estimated spacecraft wet mass, launch configuration size and load power are, respectively, 8.4 kg, 46-cm diameter x 30-cm, and 0.1 to 15 W - depending on operating state.%lt;p%gt; In this mass regime, missions to the outer solar system with relatively short trip times appear possible using small launch vehicles with appropriate upper stages. Unlike some SGM, this spacecraft spends most of its time in cruise in a hibernation state in which only a clock/timer is operating and electrical power is being stored. Also, since communications rates are low and operating periods are limited, more on-board data analysis is utilized - particularly for long-range targets - than in the other example SGM concepts.%lt;p%gt; Developed in 1993-1995, a vision, approach, and example system concepts for Second-Generation Microspacecraft (SGM) have the intent of helping enable NASA´s paradigm shift to less expensive, more frequent missions.

Envisioned is a future in which a significant number of missions can be carried out with SGM that have low life-cycle cost, provide a high return on investment, allow for frequent flights and contribute to innovation in technology.%lt;p%gt; Key elements to realizing this vision include reducing spacecraft resource requirements and complexity, minimizing spacecraft size and mass, using core building blocks and extensive spacecraft autonomy, and eliminating non-cost-effective redundancy. It is important to target appropriate, focused missions and payloads, using on-board analysis and data compression, minimizing spacecraft power needs, and using low-nuclear or, preferably, non-nuclear energy sources. SGM system concepts that are consistent with this approach include. Description: Here is an example concept for a Near-Earth-Object Flyby Second-Generation Microspacecraft (SGM). The spacecraft autonomously provides imaging and imaging spectroscopy of a near-Earth asteroid or comet for spacecraft solar ranges of 0.8 to 1.2 Astronomical Units (AU) and Earth ranges up to 1.6 AU. Estimated spacecraft wet mass, launch configuration size, and load power are, respectively, 5.5 kg, 20 cm x 33 cm x 27 cm, and 5 to 13 W - depending whether the transmitter is off or on.%lt;p%gt; Developed in 1993-1995, a vision, approach, and example system concepts for Second-Generation Microspacecraft (SGM) have the intent of helping enable NASA´s paradigm shift to less expensive, more frequent missions.

Darity 4422, Gerry Hones 6615 - Keds, Flat-flies and Bat-flies (Hippoboscidae and Nycteribiidae); Keds, Flat-flies and Bat-flies (Hippoboscidae and Nycteribiidae), A.M. Bavin 2262 - A Frog in Search of a New Pond, Stuart Avery Gold, Christopher Lane 060126, Collective Soul, Dexter Green 3355, Glenn Murray, William Kotzwinkle, Audrey Colman 720, Shed Seven 6677 - Caught on Camera, Rosalind Malam 2286, Taylor 0075 - The Hottest Players & Greatest Games, Peter Boer 422, Helene Fischer 4441, Katie Hickman 2276, Willard A Palmer, Morton Manus, Amanda Vick Lethco 027, de Gaulle Admiral Philippe 5586, Alfred Publishing 0011 - Revised and Expanded, Ole Hammerich, Bernd Speiser 2236 - Ridges Basin Excavations: Western Basin Sites, James M. Hutson 992X, Tonya Buell 0011, Mary Davis 7723 - Trading Chaotic Lifestyles for Connected Relationships, Randy Frazee 438, Takamizawa Toshihiko 3377, Edith L. Doug dorst. Yoder 9915, Matt Volla 5599, Honore De Balzac 3360, Harriet Stark 115574319 - A Critique of Psychiatric Drug Treatment, J. Potter, Thomas D.

Stalker

Envisioned is a future in which a significant number of missions can be carried out with SGM that have low life-cycle cost, provide a high return on investment, allow for frequent flights and contribute to innovation in technology.%lt;p%gt; Key elements to realizing this vision include reducing spacecraft resource requirements and complexity, minimizing spacecraft size and mass, using core building blocks and extensive spacecraft autonomy, and eliminating non-cost-effective redundancy. It is important to target appropriate, focused missions and payloads, using on-board analysis and data compression, minimizing spacecraft power needs, and using low-nuclear or, preferably, non-nuclear energy sources. SGM system concepts that are consistent with this approach include the Outer Solar System Flyby SGM, Near-Earth-Object Flyby SGM, Near- Earth-Object Rendezvous SGM, and Space Physics Fields and Particles SGM.

  • суббота 22 декабря
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