Not exact matches
I have heated it up in
water which males it
liquid around th edges, but that takes a lot of time and I'm not sure I'm not damaging the oil
with the hot
water.
I haven't gotten
around to trying them
with aquafaba (bean cooking
liquid) yet but I think using aquafaba in place of the
water when creating the flax egg, might help.
To help
with the 20 month old baby development, your child should be drinking 3 - 6 cups of
liquid a day which should include
around 12 - 20 ounces of milk in addition to juice or
water.
They're like small Neptunes but
with huge amounts of
liquid water around a rocky core.»
With population - level data they were able to calculate the odds that a moon (and its gas giant) would be in the habitable zone
around a star — the region where
liquid water can exist.
Along one string of sites, or «stations,» that stretches from Antarctica to the southern Indian Ocean, researchers have tracked the conditions of AABW — a layer of profoundly cold
water less than 0 °C (it stays
liquid because of its salt content, or salinity) that moves through the abyssal ocean, mixing
with warmer
waters as it circulates
around the globe in the Southern Ocean and northward into all three of the major ocean basins.
Ammonia seems plausible: mixtures
with water can be
liquid at
around -100 °C at a pressure of 1 atmosphere.
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.
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.
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).
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.
The orbit of an Earth - like planet (
with liquid water)
around this star would be centered
around 0.05 AU
with an orbital period of about eight Earth days, caused it to be tidally locked
with Star C.
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).
Hence, Earth - type life
around flare stars may be unlikely because their planets must be located very close to dim red dwarfs to be warmed sufficiently by star light to have
liquid water (between 0.02 and 0.05 AU for Wolf 424 A and B
with an orbital period in 3 and 12 days), which makes flares even more dangerous
around such stars.
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.
In 2003, astronomers at the University of Texas at Arlington performed refined calculations to determine that the habitable zone
around 47 Ursae Majoris, where an inner rocky planet (
with suitable mass and atmospheric gas composition and density) can have
liquid water on its surface, lies between 1.05 and 1.83 AUs of the star.
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 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.
The distance from either Groombridge 1830 where an Earth - type planet would be comfortable
with liquid water is only about 0.44 AU (
around the orbit of Mercury), but at that distance, such a planet would be very difficult to detect using present methods.
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.
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 orbit of an Earth - like planet (
with liquid water)
around Star B may be centered as close as 0.09 AU — well within the orbit distance of Mercury —
with an orbital period of just
around 22 days.
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 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 orbit of an Earth - like planet (
with liquid water)
around HD 111232 may be centered
around 0.82 AU — between the orbital distances of Venus and Earth —
with an orbital period of
around 290 days (or 0.8 years).
When an icy impact occurred, the impactor's kinetic energy became heat energy, instantly melted some ice, gouged out a crater, and kicked up into Mars» thin atmosphere large amounts of debris mixed
with water (
liquid, ice crystals, and vapor)-- and complex organic molecules that obviously came recently from life.127 Then, the dirt and salt -
water mixture settled back to the surface in vast layers of thin sheets — strata — especially
around the crater.
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.
For example: yesterday for my post-Disney
liquid only day, I had a USANA Nutrimeal shake mixed
with water on my flight
around 11:00 am (we had a late dinner the night before).