Sentences with phrase «orbital distances where»
For an Earth - type planet, the orbital distance where it would have liquid water zone on its surface would be around 0.884 AU, where the orbital period would be 392 days (1.073 years) if the star actually does have around 60 percent of a Solar - mass.
http://members.nova.org/ Not exact matches
This is the not - too - hot, not - too - cold orbital distance from a star where life has a chance.
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.
This catalogue will include Earth - like planets at intermediate orbital distances, where surface temperatures are moderate.»
In any case, a circumbinary orbital distance from CM Draconis Aab where an Earth - type planet would be comfortable with liquid water would be centered around 0.3 AU, with a «year» of 18 to 35 days.
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).
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).
Their simulations suggest that at least one planet in the one to two Earth - mass range could have formed within orbital distances of 0.5 to 1.5 AUs around both heavy - element - rich stars; of particularly note, the simulations frequently generated a Earth - like planet in or near Star B's habitable zone (where liquid water could exist on the planet's surface).
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.
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.
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.
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.
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.
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.
The distance from the star where an Earth - type planet could have liquid water on its surface is centered around 0.611 AU — between the orbital distances of Mercury and Venus in the Solar System.
According to calculations performed for the NASA Star and Exoplanet Database, the distance from 41 Arae B where an Earth - type rocky planet may have liquid water on its surface has been estimated to be between 0.593 and 1.176 AU — between the orbital distances of Mercury and Earth in the Solar System.
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.
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 distance from Star A where an Earth - type planet could have liquid water on its surface is centered around 1.35 AU — between Earth's and somewhat short of Mars» orbital distance of 1.5 AUs in the Solar System.
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.
According to calculations performed for the NASA Star and Exoplanet Database, the distance from Ross 128 where an Earth - type rocky planet may have liquid water on its surface has been estimated to be between 0.06 and 0.11 AU — well within the orbital distance of Mercury in the Solar System.
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.
The distance from EV Lac where an Earth - type planet would have liquid water on its surface is centered around 0.165 AU — well within the orbital distance of Mercury's orbital distance in the Solar System.
Accounting for the relatively greater infrared output of M - stars like Kapteyn's Star, the distance from Kapteyn's where an Earth - type planet would have liquid water on its surface is centered around only 0.158 AU — well within the orbital distance of Mercury in the Solar System.
The results included two, roughly Earth - sized planets and two smaller planets, where their orbital distance ranged between that of Mercury (0.4 AU) and Mars (1.5 AU).