Curiosity beamed back pictures from the surface showing its wheel and its shadow. *More: abcn.ws
NASA Mars Rover Landing: Curiosity Lands, Beams Back Pictures of Mars Surface
Thanks to a remarkable combination of engineering and mathematics, a NASA satellite in orbit around Mars was also able to capture a picture of the split second when Curiosity fell from the skies to its successful landing on the surface of the red planet. NASA releases video of Curiosity's descent, rover returns images of Martian ...
Impossible. That's what the 2009 Augustine committee reported about prospects for NASA's human exploration of space, at least for the next seven years. NASA's budget issues remain at the top of the list holding humans from space but the same future may not hold true for its robots.
Two recent robot adventurers, rovers Spirit and Opportunity, lend credence to the idea that NASA's future may rapidly become reliant on robots to carry out missions in space. The Mars exploring rovers cost the agency more than $ 400 million apiece but have returned nearly six years of insightful data and imagery from the red planet's surface.
Contrast this against the charge for merely launching human passengers into orbit via space shuttle, at roughly $ 450 million per launch, and the fiscal benefits become quickly apparent. Not to mention, space shuttles such as Endeavour cost the agency almost $ 1.7 billion to manufacture alone.
NASA's Space Faring Robots of the Pa st
The Mars rovers aren't the first robots to plumb the mysteries of space for NASA. In fact, robots have investigated and visited more locations in our solar system than any human--oftentimes to locales an astronaut couldn't survive.
In 1973 the robotic space probe Mariner 10 traveled to the inner system planets of Mercury and Venus while its younger sister, Mariner 9, made the trip to Mars more than thirty years before Spirit and Opportunity. Alongside, Pioneer Venus 2 ejected robotic probes which dared an actual foot landing on the surface of Venus, a vacation spot bragging temperatures well over 800 degrees Fahrenheit.
One of those probes managed to survive the risky descent and dutifully report back for 45 minutes inside roasting temperatures and atmospheric pressure that no sane human would tempt. Clearly robots can take an exploratory role that would be too costly and too dangerous for a person.
While we have managed to put footprints and f lags on our nearby Moon, robots have traveled to virtually all of the planets and even some of their moons. Of course, robots have visited our rocky celestial partner as well, among them include various NASA Pioneer spacecraft and an array of Soviet Luna spacecraft. Most of these robotic Moon explorers have taken a role as simple orbiters but a few have impacted the surface to pick through rocks and wander the barren surface.
NASA Robots on Earth
Many ideas and projects for robots at NASA have inevitably filtered down to worthy applications on Earth. After all, it is sometimes expensive or dangerous for a human to travel and visit locations on our own space rock.
One example is the Altus II, a robotic airplane developed by NASA. Originally designed as a scientific aircraft, in 2001 NASA presented the craft as a tool for fighting fires.
Human pilots have often risked their lives piloting aircraft in an attempt to survey and monitor deadly, often vast, wildfires. Because the Altus II can fly for such long duration--at one time the craft held a 26-hour record for single-flight endurance--it can continually co-operate with both ground based firefighters and off-planet satellites to photograph and monitor fires below.
In the future, NASA is likely to entertain ideas for using this sort of UAV (unmanned aerial vehicle) in a role exploring and monitoring the surface of alien worlds, carrying out automated scientific experiments at high-altitude, and coordinating with other robots on the ground and in space alike.
A Future for NASA Robots
Sure to be the envy of every earth-bound grasshopper, the Jollbot is wiry, robotic contraption that may take a leap for NASA's future exploration of space.
Robots that physically walk on some sort of leg or roll around on a set of wheels can easily be thwarted by unpredictable terrain. The Jollbot takes a different tack by literally forming a ball to roll a cross obstacles. If things get too tough, or if there are simply better places to explore, the Jollbot can hop its way to a distant new location or hurdle over a small patch of difficult ground before continuing its mission.
Such a robot could provide a far cheaper and far more efficient answer than previous attempts made by NASA at exploring other planets and moons. It also means that NASA could send many more of these robotic explorers than usual opening up the possibility of mapping and traversing entire landscapes in short periods of time, both on our home planet and anywhere in space we can afford to send them.
A much more human like robot is also being developed by NASA and DARPA--the Robonaut. Featuring an upper torso, human styled hands and arms, and even a head straight out of your favorite science fiction movie, the Robonaut has been proposed as the ideal space janitor and maintenance man.
Capable of being mounted in ways we humans might find offe nsive, the Robonaut could find itself perched on the end of a long, robotic arm for spacewalks intended to repair and maintain equipment such as found on the International Space Station or orbiting satellites. Partnered with humans, a Robonaut could make these spacewalks safer and easier, if not less time-consuming and costly.
Yet, the Robonaut isn't by any means limited to jaunts in space. One lucky Robonaut has been mounted on a Segway HT, the hip, two-wheeled electric scooter that has periodically foiled human riders such as George Bush.
It is certainly possible that NASA could find even more inventive ways to mount a Robonaut, on Earth, in space, and into the distant future. Whatever the case, it is apparent that robots form an effective cast and crew for NASA's future exploration of our planet and our universe.
Additional information and sources for this article include:
Augustine Plans Committee, Review of U.S. Human Space Flight (PDF)
Lee Billings, America's Space Agency Faces Uncertain Future, Seed Magazine
NASA, Space Shuttle FAQ, Robonaut Shows Sensitive Side
Marshall Brain, How the Mars Exploration Rovers Work, HowStuffWorks.com
Staff & Wire Reports, NASA Offers Robot Plane as Firefighter, Space.com
University of Bath, Researcher Designs Robot that Jumps like a Grasshopper
Wikipedia, General Atomics ALTUS, Venus, Space Exploration
Suggest Robots - The Future For NASA? Topics vQuestion by : what does "nasa" mean? please give me some examples,what;s the difference between nasa and sa? question 2: what does "ukol" mean? please give me some examples. question 3: what does "tuwiran" mean? please give me some examples. question 4: what;s the difference between sahig and palapag? both mean floor. Best answer for what does "nasa" mean? please give me some examples,what;s the difference between nasa and sa?:
Answer by Joshua
NASA means "no asses sir ASS!
Answer by Delauria
"Nasa" Nasa sa iyo yon. It depends on you! = Nasa akin ang aklat mo. You book is with me. Dahil sa yo! - Because of you! Saan sa Pilipinas? = Where in the Philippines? and etc, etc. 2. "Ukol" = They are talking about you. = Ukol sa iyo ang kanilang pinaguusapan. 3. "Tuwiran" = direct Have a direct talk. Mag usap kayo ng tuwiran. 4. "sahig" = floor He is laying on the floor. Nakahiga siya sa sahig. "palapag" =
Answer by jane297jeng
1) Nasa and sa does not really differ that much. Nasa is used more for emphasizing. But just like any languages sa and nasa are also used for other purposes other than answering a question of where. ex. Nasa: a) Nasa likod niya ang kalaban. (His/her enemy is behind him/her.) b) Yung libro mo ay nasa kanya. (Your book is with him/her.) ex. Sa: a)Sa Davao City nakatira si Willy. (Willy lives in Davao City.) b) Yung mga bulaklak ay galing sa kanya. (The flowers are from him/her.) 2) Ukol means because or about. But we dont really use this in a normal conversation since it is considered as deep. ex. a)Ukol sa pangyayaring ito, nagkaroon ng trauma si inay. (Because of this incident, my mother had a trauma.) b)Nag-away ang mag asawa ukol sa pambababae ng lalake. (The married couple fought because of the womanizing of the guy.) 3) Tuwiran has many usage like thoroughly, thoughtfully and etc. ex. a) thoroughly Gawin mo yan ng tuwiran. (Do that thoroughly.) b) Thoughtfully Matuwiran ang kanyang pananaw. (His/her opinion is very thoughtful.) 4) Sahig and palapag both mean floor. But Sahig is used more since palapag is considered as a deep word. Personally, i think it is the evolution of words that has caused for example a thing that has various terms that you can use. It is because philippines has various languages in different areas of the country. But either way, you can use sahig or palapag when referring to the floor, it's just that pure tagalog speakers use palapag more than filipinos who are bisayan speaker and etc. But since tagalog is the national language, everyone then knows how to speak tagalog.