Sentences with phrase «system with a liquid water»
Not exact matches
Generating electricity from solar - thermal energy, however, usually requires a large - scale system, with an array of mirrors that reflect and concentrate sunlight onto tanks or pipes filled with water or other liquids.
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«Liquid will stick in a crystal system,» says Kevin Price, a water - treatment expert with the U.S. Bureau of Reclamation.
In addition to its unique fuel cycle, the TerraPower design employs a high - temperature, liquid metal core cooling technology suited to a breeder reactor with «fast» neutron activity, rather than today's predominant reactors whose water cooling systems slow neutrons.
Such micro-structured surfaces have helped design new surfaces that mimic surfaces found in nature, such as self - cleaning surfaces, reduced - drag surfaces, surfaces capable of transporting liquids in microfluidic systems, variants with anti-icing or heat transfer properties, and even surfaces that facilitate oil - water separation.
In the case of electrons on helium, the system is pure and homogenous, but the surface of liquid helium is nonetheless disturbed by capillary waves — ripples associated with the surface tension and similar to small, circular ripples in a pond when a pebble is tossed into the water.
Outside of Earth, Titan is the only other planetary body in the solar system with actively flowing rivers, though they're fed by liquid methane instead of water.
Kromek, a spin - off from UK's Durham University, won last year's prize with a liquid scanning system that can tell the difference between water and liquid explosives.
The distance from Vega where an Earth - type planet would be «comfortable» with liquid water is centered around 7.1 AU — between the orbital distances of Jupiter and Saturn in the Solar System.
If so, then conditions would be more favorable for the existence of stable orbit for an Earth - like planet (with liquid water) centered around 1.5 AU from around Iota Persei — around the orbital distance of Mars in the Solar System.
But there's liquid water elsewhere in the solar system; it's buried under thick sheets of ice on moons,» Francis Nimmo, a planetary scientist with the University of California at Santa Cruz, told Discovery News.
The orbit of an Earth - like planet (with liquid water) around close - orbiting Stars A and B may be centered as close as 1.06 AU — between the orbital distances of Earth and Mars in the Solar System — with an orbital period of over 384 days (1.05 years).
The orbit of an Earth - like planet (with liquid water) around Star C would be centered around 0.11 AU — well inside the orbit of Mercury in the Solar System — with an orbital period of 24.4 days.
According to models, the TRAPPIST - 1 system contains three planets in the habitable zone, making it the record holder for stars we know of with rocky planets that could potentially support liquid water, Kaltenegger explained.
Calculations by to Weigert and Holman (1997) indicated that the distance from the star where an Earth - type planet would be «comfortable» with liquid water is centered around 0.73 to 0.74 AU — somewhat beyond the orbital distance of Venus in the Solar System — with an orbital period under an Earth year using calculations based on Hart (1979).
For an Earth - type planet around HD 189733 A to have liquid water at its surface, it would need a stable orbit centered around 0.5 AU — between the orbital distances of Mercury and Venus in the Solar System (with an orbital period around 150 days assuming a stellar mass around 82 percent of Sol's.
Calculations by to Weigert and Holman (1997) indicated that the distance from the star where an Earth - type planet would be «comfortable» with liquid water is centered around 1.25 AUs (1.2 to 1.3 AUs)-- about midway between the orbits of the Earth and Mars in the Solar System — with an orbital period of 1.34 years using calculations based on Hart (1979).
Many random systems that describe the physical world, even those with very simple descriptions, can have dramatically different behaviors at different temperatures, such as solid ice turning to liquid water at a prescribed temperature.
The orbital distance from Zeta Doradus where an Earth - type planet currently would be «comfortable» with liquid water is centered near 1.2 AU — between the orbital distances of Earth and Mars in the Solar System.
The orbit of an Earth - like planet (with liquid water) around this star would be centered around 1.14 AU — somewhat outside the orbital distance of Earth in the Solar System — with an orbital period of about one and a quarter of an Earth year.
Based on its estimated bolometric luminosity, the distance from HR 4523 A where an Earth - type planet would be «comfortable» with liquid water is centered around 0.88 AU — between the orbital distance of Venus and Earth in the Solar System, with an orbital period about 330 days, or about 90 percent of an Earth year.
In any case, the orbit of an Earth - like planet (with liquid water) around Zeta2 would have to be centered at around one AU — the orbital distance Earth in the Solar System — with an orbital period of just over a year.
The orbital distance from Gamma Pavonis where an Earth - type planet would be «comfortable» with liquid water is centered around 1.2 AU — between the orbital distances of Earth and Mars in the Solar System.
The distance from Star A where an Earth - type planet would be «comfortable» with liquid water is centered around only 0.56 AU — between the orbital distances of Mercury and Venus in the Solar System.
If so, then conditions would be more favorable for the existence of stable orbit for an Earth - like planet (with liquid water) centered around 1.15 AU from around 15 Sge — between the orbital distances of Earth and Mars in the Solar System.
Assuming that the spectroscopic companion B does not preclude a stable inner planetary orbit, the distance from Star A where an Earth - type planet would be «comfortable» with liquid water is centered around only 0.457 AU — between the orbital distances of Mercury and Venus in the Solar System.
The orbital distance from Stars A and B where an Earth - type planet currently would be «comfortable» with liquid water is centered near 1.8 AU — between the orbital distances of Mars and the Main Asteroid Belt in the Solar System.
The distance from Beta Comae Berenices where an Earth - type planet would be «comfortable» with liquid water may be centered around 1.2 AU — between the orbital distances of Earth and Mars in the Solar System with an orbital period of 1.29 Earth Years.
If so, then conditions would be more favorable for the existence of stable orbit for an Earth - like planet (with liquid water) centered around 1.12 AU from around 37 Gem — between the orbital distances of Earth and Mars in the Solar System.
The distance from Kappa Ceti where an Earth - type planet would be «comfortable» with liquid water is centered around only 0.92 AU — between the orbital distances of Earth and Venus in the Solar System.
The orbit of an Earth - like planet (with liquid water) around 79 Ceti may be centered around 1.41 AUs — within the inner reaches of the Main Asteroid Belt in the Solar System — with an orbital period of 611 days (or 1.67 years).
The orbit of an Earth - like planet (with liquid water) around Star A may be centered as close as 1.8 AU — between the orbital distances of Mars and the Main Asteroid Belt in the Solar System — with an orbital period of 2.2 years.
Today, the distance from Delta Eridani where an Earth - type planet would be «comfortable» with liquid water is centered around 1.7 AU — beyond the orbital distance of Mars in the Solar System.
Finding Habitable Planets February 23, 2011 NASA's Kepler mission, launched in March of 2009 to search for extrasolar planets, has found a system with five Earth ‑ like planets in the habitable zone, where liquid water may exist.
The distance from Chi1 Orionis A where an Earth - type planet would be «comfortable» with liquid water is centered within 1 AU — around inside the orbital distance of Earth in the Solar System.
Any water (liquid or ice) that close to the Sun would vaporize and be blown by the solar wind to the outer reaches of the solar system, a as we see happening with water vapor in the tails of comets.
The orbit of an Earth - like planet (with liquid water) around this star would be centered around 0.77 AU — somewhat farther than the orbital distance of Venus in the Solar System — with an orbital period under 273 days or more than two thirds of an Earth year.
Currently, the orbit of an Earth - like planet (with liquid water) around Arcturus may be centered around 11 AU — between the orbital distances of Saturn and Uranus in the Solar System.
On the other hand, the distance from BD +04 123 where an Earth - type planet would be «comfortable» with liquid water is centered around only 0.49 AU — between the orbital distances of Mercury and Venus in the Solar System — where a planet probably would have an orbital period around 137 days or more than a third of an Earth year.
The orbit of an Earth - like planet (with liquid water) around Star A may be centered around 1.7 AU — between the orbital distances of Mars and the Main Asteroid Belt in the Solar System — with an orbital period around 2.1 years.
The distance from CD - 23 17699 where an Earth - type planet would be «comfortable» with liquid water is centered around only 0.202 AU — within the orbital distance of Mercury in the Solar System.
The orbit of an Earth - like planet (with liquid water) around this tight binary (Aab) would have to be centered around 1.3 AUs — between the orbital distances of Earth and Mars in the Solar System — with an orbital period between one and two Earth years.
The orbit of an Earth - like planet (with liquid water) around Star B would be centered around 0.56 AU — between the orbits of Mercury and Venus in the Solar System — with an orbital period around 171 days.
The orbit of an Earth - like planet around the tight binary system that star Ba forms with its brown dwarf companion in the liquid water zone would have to be centered around 1.1 AU — a little farther than Earth's orbital distance around Sol — with an orbital period exceeding one Earth year.
The distance from star A where an Earth - type planet would be «comfortable» with liquid water is centered around 0.70 AU — about the orbital distance of Venus in the Solar System, with an orbital period of about 221 days, or around six - tenths of an Earth year.
The orbital distance from Zavijava where a planet currently would be «comfortable» for Earth - type carbon - based lifeforms with liquid water on the planetary surface in the so - called habitable zone is centered near 1.87 AU — between the orbital distances of Mars and the Main Asteroid Belt in the Solar System.
The distance from Gamma Leporis A where an Earth - type planet would be «comfortable» with liquid water may be centered around 1.6 AU — just outside the orbital distance of Mars in the Solar System with an orbital period of 1.85 Earth Years.
Currently, the orbit of an Earth - like planet (with liquid water) around Pollux may be centered around 5.7 AU — just outside the orbital distance of Jupiter in the Solar System.
The orbit of an Earth - like planet (with liquid water) around Star B would be centered around 0.036 AU — well inside the orbit of Mercury in the Solar System — with an orbital period of 6.5 days.
The orbit of an Earth - like planet (with liquid water) around this star would be centered around 0.91 AU — between the orbital distances of Venus and Earth in the Solar System — with an orbital period of nearly 342 days, close to an Earth year.
Just stir... 1) Super Green in water: this will strengthen your immune system and a give your body lots of micronutrients and chlorophyll (aka liquid sunshine) 2) Energy Bomb in oat milk: for a boost of energy (the natural caffeine coming from guarana is absorbed very slowly and will, therefore, give you lots of energy for up to 7 hours) 3) Forever Beautiful in water: this shot will provide your body with the beauty vitamins A, C, E and lots of antioxidants and minerals - for healthy, glowing skin and strong hair and nails 4) Power Matcha in a green juice: perfect for brainpower - take this shot whenever you need to focus for (the best for long study sessions!)