![]() The Staff Development Benefit Allowance Program provides an annual reimbursement allowance to assist County employees in achieving professional and educational growth. This resource describes why outlines are useful, what types of outlines exist, suggestions for developing effective outlines, and how outlines can be used as an. The Australia Council for the Arts has today announced changes to its grants program in response to the 2015-16 budget measures. Central Arizona College - District Office 8470 N. Overfield Road, Coolidge, AZ 85128 Phone: 800-237-9814. The Development and Sustainability Program, formerly known as the Development Studies Program, was established in 2005 and is part of the Faculty of Environment. NTIA, as part of its BroadbandUSA program, is continuing a series of monthly webinars to gather input on the development of the Community Connectivity Initiative.BRSCR Voice Writer Training Program Outline: Describes the details of the Voice Court Reporting and Voice Captioning programs. Course Descriptions and Outlines. A course description provides a summary of the material that a course covers. Course descriptions also specify prerequisites and. Corporate Security Strategy, Strategic Program Management. Case Study #1. 01. Defining a global security strategy for a media giant. Space. X reusable launch system development program. Space. X reusable launch system development program. Commercial? Yes. Type of project. Privately funded. Location. Various. Owner. Space. XFounder. Elon Musk. Established. Publicly announced 2. Status. Active. The Space. X reusable launch system development program is a privately funded program to develop a set of new technologies for an orbitallaunch system that may be reused many times in a manner similar to the reusability of aircraft. The company Space. X is developing the technologies over a number of years to facilitate full and rapid reusability of space launch vehicles. The project's long- term objectives include returning a launch vehicle first stage to the launch site in minutes and to return a second stage to the launch pad following orbital realignment with the launch site and atmospheric reentry in up to 2. Space. X's long term goal is that both stages of their orbital launch vehicle will be designed to allow reuse a few hours after return. High- velocity, high- altitude aspects of the booster atmospheric return technology began testing in late 2. Space. X first achieved a successful landing and recovery of a first stage in December 2. The reusable launch system technology is under development for the first stages of the Falcon family of rockets. On flight 2. 0 the speed at separation was close to 6. On flight 2. 2, going to GTO, the higher velocity at separation was between 8. At these faster speeds it is not possible to return the booster to near the launch site for a landing; if a landing is attempted it needs to be hundreds of kilometers downrange, likely on an autonomous drone ship. The process involves flipping the rocket around, a boostback burn to slow the rocket, a reentry burn, controlling direction to arrive at the landing site and a landing burn to effect the final low- altitude deceleration and touchdown. It is intended that the reusable technology will be extended to both the first and upper stages of the future launch vehicle for the Interplanetary Transport System. Two subsequent flights in January and April 2. Although both boosters were guided accurately to the target, they did not succeed in landing vertically on the drone ship and were destroyed. Space. X said it would attempt to develop powered descent and recovery of both Falcon 9 stages. The company produced a computer- animated video depicting a notional view of the first stage returning tail- first for a powered descent and the second stage with a heat shield, reentering head first before rotating for a powered descent. The work was contracted for by Space. X under a reimburseable Space Act Agreement with NASA. The new system was to be . We will never conquer Mars unless we do that. It'll be too expensive. The American colonies would never have been pioneered if the ships that crossed the ocean hadn't been reusable. The tests will be run in Texas at the Mc. Gregor Rocket Test Facility in 2. Following the completion of the third high- altitude controlled- descent test, and the completion of the third low- altitude flight of the second- generation prototype test vehicle (plus eight flights of the first- generation Grasshopper prototype flight test vehicle), Space. X indicated that they are now able to consistently . In the event, Space. X built the autonomous spaceport drone ship in 2. The total span of the four carbon fiber/aluminum extensible landing legs. Deployment system uses high- pressure Helium as the working fluid. In September 2. 01. Space. X said that if all aspects of the test program were successful and if a customer is interested, the first reflight of a Falcon 9 booster stage could happen as early as late 2. Moreover, the economic case for reuse will be highly dependent on launching frequently, and that is simply unknown as of 2. Reusable Falcon 9s could drop the price by an order of magnitude, sparking more space- based enterprise, which in turn would drop the cost of access to space still further through economies of scale. Neither ILS, which markets launches of the Russian Proton rocket; Arianespace; nor Sea. Launch are planning on developing and marketing reusable launch vehicle services. Space. X was the only competitor that projected a sufficiently elastic market on the demand side to justify the costly development of reusable rocket technology and the expenditure of private capital to develop options for that theoretical market opportunity. Space. X has been explicit that the . She said at $1m cost of refueling and $3m cost of refurbishing a used first stage could potentially allow a launch to be priced as low as $4. Space. X biggest customer SES has said it wants to be the first to ride a reused vehicle, however it wants a launch price of $3. Heat shields and a few other items should be reused over 1. And even after this success, the rapid reuse of a rocket is yet to be attempted (although scheduled for a test in 2. Developing a reusable rocket is extremely challenging due to the small percentage of a rocket's mass that can make it to orbit. A Space. X rocket operating in the reusable configuration has approximately 3. The second generation vehicle includes extensible landing legs and will be tested at the Texas test site. It would use F9. R Dev. Space. X leased facility at Spaceport America in New Mexico. The first booster return controlled- descent test from high- altitude was made in September 2. April. All four test flights to date were intended to be over- water, simulated landings. Two versions of the prototype reusable test rockets were built. It stood 1. 06 feet (3. It was rebuilt as the F9. R Dev. 1 with extensible landing legs. The second VTVL flight test vehicle. This vehicle self- destructed as a safety measure during its fifth test flight on August 2. It will undergo a test program in Texas at the Mc. Gregor Rocket Test Facility, in 2. The other 2. 6 test flights are projected to take off from a pad: eight to be propulsive assist hops (landing with parachutes plus thrusters) and 1. Grasshopper and F9. R Dev booster stage test flights. These boosters would ordinarily just be discarded in the ocean after setting their payloads on their way. The over- water tests take place in the Pacific and Atlantic oceans south of Vandenberg Air Force Base and east of Cape Canaveral Air Force Station. The first flight test occurred on September 2. CASSIOPE and nanosat payloads separated from the booster. These descent and simulated landing tests continued over the next two years, with the second flight test taking place on April 1. The first flight test was successful; Space. X said it was . Space. X attached landing legs to the first stage, decelerated it over the ocean and attempted a simulated landing over the water, following the ignition of the second stage on the third cargo resupply mission contracted to NASA. The first stage was successfully slowed down enough for a soft landing over the Atlantic Ocean. The goal was to land the booster vertically at the leased Landing Zone 1 facility. This test aimed to assess the health of the recovered booster and the capability of this rocket design to fly repeatedly in the future. Approximately 9 minutes into the flight, the live video feed from the drone ship went down due to the losing its lock on the uplink satellite. The vehicle landed smoothly onto the vessel but one of the four landing legs failed to lock properly, reportedly due to ice from the heavy pre- launch fog preventing a lockout collet from latching. This was heavier than previously advertised maximum lift capacity to GTO being made possible by going slightly subsynchronous. Following delays caused by failure of Flight 1. Space. X agreed to provide extra thrust to the SES- 9 satellite to take it supersynchronous. Consequently the Falcon 9 first stage followed a ballistic trajectory after separation and re- entered the atmosphere at high velocity, making it less likely to land successfully. However the rocket was moving too fast and was destroyed when it collided with the drone ship. Space. X collected valuable data on the extended flight envelope required to recover boosters from GTO missions. First landings on drone ship. Nine minutes after liftoff, the booster landed vertically on the drone ship Of Course I Still Love You, 3. Florida coastline, achieving a long- sought- after milestone for the Space. X reusability development program. This second landing at sea was more difficult than the previous one because the booster at separation was traveling about 8,3. CRS- 8 launch to low Earth orbit. Elon Musk indicated this first stage may not be flown again instead being used as a life leader for ground tests to confirm others are good. The landing crushed a . The company hopes to begin offering pre- flown Falcon 9 rocket stages commercially by the end of the year, aiming at relaunching such a stage in the near future. On July 2. 8, the first stage from JCSAT- 1. Space. X Mc. Gregor facility. Stages were processed and initially evaluated in either launch hangars, or for Cape Canaveral landings, in the new hangar Space. X recently completed at Kennedy Space Center Launch Complex 3. Returned rocket parts have also been transported to Space. X Hawthorne and Space. X Mc. Gregor for engineering evaluation and testing. In August 2. 01. 6, with over a half- dozen rocket cores successfully landed. They will do so in both leased space and in a new building to be built in Port Canaveral, Florida, near the location where the Atlantic Autonomous Spaceport Drone Ship is berthed, and where stages that land on the east- coast droneship are now removed from the ship. Retrieved February 7, 2. Retrieved October 2. Event occurs at 2. Retrieved April 3, 2. Retrieved December 1. Space. X exists to further . Singapore Satellite Industry Forum 2. Opening Keynote. Retrieved April 8, 2. To space and back, in less than nine minutes? Retrieved October 1. Archived from the original(video) on October 1. National Press Club: The Future of Human Spaceflight. NPC video repository (video).
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