The wind in the worlds.If you could live near Jupiter's famous Great Red Spot, your weather forecast might sound something like this: Expect lightning storms and winds gusting to 340 miles per hour for the next few hundred years. [ILLUSTRATION OMITTED] On Venus, you'd wake up to a temperature of 890oF, which is hot enough to melt lead. Huge, planetwide dust storms could disrupt your plans on Mars. And Neptune's 900-mile-per-hour (mph) winds would make the worst hurricanes on Earth seem like gentle breezes gentle breeze n. A wind with a speed from 8 to 12 miles (13 to 19 kilometers) per hour, according to the Beaufort scale. Noun 1. . Weather watching Just as meteorologists Atmospheric scientists
adj. 1. Of, relating to, or resembling the physical or orbital characteristics of a planet or the planets. 2. a. scientists study the weather on other planets. What these scientists find won't cancel soccer games or predict a good day at the beach, but their research might help explain what makes planets and their weather systems, including those on Earth, tick. [ILLUSTRATION OMITTED] Learning about weather throughout the solar system solar system, the sun and the surrounding planets, natural satellites, dwarf planets, asteroids, meteoroids, and comets that are bound by its gravity. The sun is by far the most massive part of the solar system, containing almost 99.9% of the system's total mass. could also give us a sense of how global warming global warming, the gradual increase of the temperature of the earth's lower atmosphere as a result of the increase in greenhouse gases since the Industrial Revolution. will affect Earth, says planetary scientist David Atkinson For the Canadian academic, see . David Atkinson (born 24 March 1940) was Conservative British Member of Parliament for Bournemouth East from a 1977 by-election until he stepped down at the 2005 general election. of the University of Idaho The university was formed by the territorial legislature of Idaho on January 30, 1889, and opened its doors on October 3, 1892 with an initial class of 40 students. The first graduating class in 1896 contained two men and two women. in Moscow. That's because each planet is like a natural experiment, showing what our planet might be like under different conditions. [ILLUSTRATION OMITTED] "Planets form a laboratory for studying winds on Earth," Atkinson says. "We can't move Earth or speed it up or stop it from spinning. These are our experiments. We study the planets." Getting wind of wind Weather and wind can occur only on planets or other objects that are surrounded by layers of gases, called atmospheres. At least 12 objects in our solar system fit that category, says planetary scientist Timothy Dowling of the University of Louisville See also
1. ^ [1] 2. ^ [2] URL accessed on June 8 2006 3. in Kentucky. Scientists have discovered atmospheres on the sun, on most of the planets, and on three moons. Winds, which drive weather systems, need an energy source to get them going. On Earth, energy from the sun heats some pockets of air, while other pockets remain cold. Hot air then moves toward cold air, creating wind. Probing the wind Since the far reaches of the solar system get less of the sun's energy than Earth does, scientists had expected that the cold, distant planets would be less windy than our planet is. But when researchers began launching probes to other planets, surprises started pouring in. To check winds on another planet, scientists send a measuring device into its atmosphere. On a planet with no wind, gravity makes the probe drop straight down toward the planet's surface. If the probe falls at an angle, researchers know that it's being pushed by wind, and they can then calculate the wind's speed and direction. So far, probes have measured winds below the clouds on Venus, Jupiter, and Saturn's moon Titan. [ILLUSTRATION OMITTED] Using these and other techniques, scientists have measured 200-mph winds in the upper atmosphere of Jupiter, 800-mph winds on Saturn, and 900-mph winds on Neptune. On Earth and Mars, which are much closer to the sun, winds in the upper atmosphere average only 60 mph. From Neptune, the sun is so far away that it "looks just like a bright star," Dowling says. "Yet winds are just screaming around the planet. It's an amazing a·maze v. a·mazed, a·maz·ing, a·maz·es v.tr. 1. To affect with great wonder; astonish. See Synonyms at surprise. 2. Obsolete To bewilder; perplex. v.intr. contradiction." And that's not the only mystery blowing in the planetary wind. Mysterious winds On Earth, winds get faster as you get higher in the atmosphere. So, for example, airplanes experience more wind than cars do. And we tend to feel more wind on mountaintops than on prairies. The same is true on Venus and Mars. On Saturn's moon Titan, however, the Huygens probe The Huygens probe, supplied by the European Space Agency (ESA) and named after the Dutch 17th century astronomer Christiaan Huygens, is an atmospheric entry probe and lander carried to Saturn's moon Titan as part of the Cassini-Huygens mission. found a different pattern during its descent in 2005. As expected, the winds were strongest near the outer edges of the atmosphere. They then dropped to almost nothing as the probe moved toward Titan's surface. About halfway down, however, the gusts picked up. Then, closer to the moon's surface, they dwindled again. Winds increase deep inside the atmosphere of Jupiter too, Atkinson says, even though computer models had predicted that the opposite would be true. "What that tells us," he says, "is that there is most likely energy down below that is coming outward." Another puzzle is the link between an object's spin and the strength of its winds. On most planets and moons with atmospheres, winds blow in the direction in which the object spins. This suggests that spinning helps get wind whipping WHIPPING, punishment. The infliction of stripes. 2. This mode of punishment, which is still practiced in some of the states, is a relict of barbarism; it has yielded in most of the middle and northern states to the penitentiary system. . Venus, however, takes 243 Earth days to make a single rotation. Yet wind zips around Venus 60 times as fast as the planet spins, Dowling says. Titan's wind also outraces its spin. As scientists attempt to decipher Same as decrypt. these unexpected findings, the planetary weather keeps changing. Last October, researchers using the Hubble Space Telescope Hubble Space Telescope (HST), the first large optical orbiting observatory. Built from 1978 to 1990 at a cost of $1.5 billion, the HST (named for astronomer E. P. Hubble) was expected to provide the clearest view yet obtained of the universe. found the first evidence of a dark spot on Uranus. The spot is probably an enormous, rotating storm, like Jupiter's long-standing Great Red Spot, Neptune's Great Dark Spot, and Saturn's Great White Spots. [ILLUSTRATION OMITTED] Last fall, the Cassini spacecraft spacecraft Vehicle designed to operate, with or without a crew, in a controlled flight pattern above Earth's lower atmosphere. Since streamlining is not needed in the high vacuum of this environment, a spacecraft's shape is designed according to its mission (see took pictures of a raging storm near Saturn's south pole South Pole, southern end of the earth's axis, lat. 90° S. It is distinguished from the south magnetic pole. The South Pole was reached by Roald Amundsen, a Norwegian explorer, in 1911. See Antarctica. . Unlike Saturn's Great White Spots, this storm has a distinct center, called an eye. The storm also has a steep wall of clouds along its edges. The clouds are similar to a hurricane on Earth, but many times stronger. It's the first hurricanelike storm ever observed on another planet. Forecasting the future Scientists are using the data they collect from planets other than Earth to help create a grand theory of what causes weather throughout the solar system. They want to know why some storms last longer than others, and why some become so powerful. Researchers also hope to use this information to create computer programs that will help them make better long-term predictions about storms, droughts, and the consequences of climate change on Earth. "Could Earth turn into Venus, which is as hot as an oven?" Dowling asks. "Could Earth turn into Mars, which is a cold desert? Could it turn into Titan, which is a smoggy smog n. 1. Fog that has become mixed and polluted with smoke. 2. A form of air pollution produced by the photochemical reaction of sunlight with hydrocarbons and nitrogen oxides that have been released into the atmosphere, world with thick clouds and no life?" For answers about Earth, scientists are looking to other worlds. |
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