Project Spaceship For this project, you will program a spaceship flying through
ID: 3727730 • Letter: P
Question
Project Spaceship For this project, you will program a spaceship flying through space. In this project, "space" will be a matrix of O's and l's, where 0 is empty space, and 1 is an asteroid. Your spaceship will have a location in that matrix. You will create functions that can move the spaceship within the matrix, and determine whether it has crashed into an asteroid. You will have to do the following in this project Come up with a way of generating "space" matrices Create a type of structure for spaceships. At the very least, these will have o o o A location in space A current speed A current direction of movement Come up with a way to change the speed and direction of a spaceship Update the location of the spaceship in space Determine whether the spaceship has hit an asteroid This project has the folowing deliverable levels C: Your project accom the spaceship or messages about collisions. plishes the above tasks with a related set of functions without displaying the location of B: Your project accomplishes the above tasks, and shows an image of the spaceship in space and displays its current speed and direction. A: You implement a GUI that lets the user change the speed and direction of the spaceship, update the spaceship's location, and gives the user a message if the spaceship crashes. So long as your project meets those requirements, you will get the corresponding grade. That means a great deal about how you accomplish this project is up to you.Explanation / Answer
Lighting-speed computer chips, robotic arms, small sensors to monitor the enviro n m e n t , hopping robots for planetary space exploration and shoebox sized, lightweight inflatables that, once in space, can unfurl to the size of a tennis court. These developments will bring about new discoveries and lead in the search for life on other planets. Back home, they hold the p romise of bre a k t h rough advances in the communications, medical and commerc i a l i n d u s t r i e s . Early in the year 2000, the war against b reast cancer had a new weapon, thanks to an advanced sensor developed at JPL. The Quantum Well Infrared Photodetector camera uses extremely sensitive infrared sensors for noninvasive mammography. Commercial applications for the sensor include locating hot spots during fires and observing volcanoes. Another invention with cross-industry applications is a drill that may end up in the hands of craftsmen and surgeons alike. The ultralightweight drill is miniaturized to fit in the palm of a hand and can core hard rocks and potentially be used to extract pacemaker leads. Earth’s environment will also benefit from space technology. A robotic device that safely strips paint from the hulls of ships without polluting the environment, based on NASA robotics technology, can have a positive environmental impact while providing a benefit to the shipyard industry. JPL engineers continue to miniaturize an electronic nose with the ability to monitor recycled air. The E-Nose may someday monitor the air for toxins in closed environments such as the space shuttle, International Space Station and any future space outpost that features a closed human habitat. Potential commercial uses include sniffing for a fire before the blaze erupts, unexploded land mines, spills in chemical plants that could contaminate workers, plant ripeness coldest winters on record. Measurements showed ozone in the Arctic decreasing by 60 percent. Scientists noted that more polar stratospheric clouds than anticipated formed high above the North Pole, due to the Arctic becoming colder and more humid. These clouds provide surfaces that convert benign forms of chlorine into reactive, ozone-destroying forms, and they remove nitrogen compounds that act to moderate the destructive impact of chlorine. Researchers note that the Arctic may become more like the colder Antarctic, which could lead to more dramatic ozone loss in the future over the Northern Hemisphere. A JPL geophysicist was able to solve the c e n t u ry-old mystery of the Earth’s “Chandler wobble.” The principal cause is fluctuating pre ss u re on the bottom of the ocean, caused by t e m p e r a t u re and salinity changes and winddriven changes in the circulation of the oceans. The Chandler wobble, named for its 1891 discove re r, is one of several wobbling motions exhibited by Earth as it rotates on its axis. The wobble amounts to about 6 meters (20 feet) at the North Pole and takes about 433 days to complete. Residents of Northern California got some good news as a result of technology developed by NASA. A UC Berkeley geophysicist assessed movement along the northern Hayward fault and found less chance of a major quake originating on that segment than previously thought. The study used new techniques for monitoring earthquake fault activity with the help of radar interferometry and data from the global positioning system. Image data from the “zoom lens” of NASA’s Terra satellite—the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER)—are now available to the public. The general-purpose instrument can map Earth’s surface and how it changes with time, and can determine the characteristics of land and water surfaces. It has 14 spectral bands, extremely high spatial resolution and stereo imaging capabilities. A joint U.S.-Japan science team is responsible for ASTER.
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