It is 470 ly (light years).
Moons in the solar system besides "ours"(with estimated diameter (2xRadius)):Comment: Here I´m considering as "Moon" only those satelites that are large enough to be spherical, which leaves out for example, Phobos and Deimos (orbiting mars), and numerous other satelites of Jupiter, Saturn, Uranus and NeptuneJupiter : the galilean Moons:Io (~3650 km),Europa (~3100 km),Ganymede (~5200 km) &Callisto(~4800 km)Saturn:Enceladus (500 km),Tethys (1050 km),Dione (1100 km),Rhea (1500 km),Titan (5100 km),Lapetus(1400 km)Uranus:Miranda (470 km),Ariel (1160 km),Umbriel (1170 km),Titania (1550 km),Oberon (1520 km)Neptune:Triton (2700)
Because of it elliptical orbit, Jupiter may be from 460 to 508 million miles from the sun.
A constellation is just a pattern of stars in the sky as we see them. Stars in constellations tend to be varying distances away from each other, and have no real connection. For us, they just happen to look close together, when in fact they can be huge distances from each other. A star that appears to be beside another in the sky, could be much nearer to a star that looks further away from it from our perspective. The brightest star in Phoenix, as we see it, is about 78 light years away. The next brightest looking one is about 130 light years away. The next brightest looking is about 910 light years away, but the next brightest looking is only about 220 light years away. There is about 5,869,713,600,000 miles in a light year or about 9,445,950,434,502 kilometres.
If you could cross space directly and ignore Newton's laws like in Star Trek, You would need to cross between 54,710,000 and 401,307,000 kilometers depending on the current orbital/precession status of both planets. However, since current Earth spacecraft burn and coast into an elliptical orbit around the sun such that Mars' gravity will catch the spacecraft; the travel distance to Mars is less than about half of the circumference of Mar's orbit, or about 715 million kilometers, and more than about half of the circumference of the Earth's orbit, or about 470 million kilometers. Differences in designs of spacecraft can change these numbers drastically. Hence it is usually easier to simply refer to the direct line-of-sight distance between the planets.
Venus is the hottest planet, it can achieve these sorts of temperatures at it surface. The average surface temperature is around 460°C (860°F).
Lead is a metal that is solid at 470 degrees Celsius. It has a melting point of 327.5 degrees Celsius, so it would be in its solid state at 470 degrees Celsius.
470 degrees Celsius is equivalent to 878 degrees Fahrenheit.
880 degrees Fahrenheit
470 degrees kelvin
34-36 degrees Sterndrives.com
The planet Venus is a rocky planet, blanketed in thick clouds of sulphuric acid. It has a very dense atmosphere which is mainly carbon dioxide. It has the highest average temperatures of any of the planets at around 470 degrees Celsius. The rotation of Venus is very slow and is retrograde. The surface shows signs of a lot of recent volcanic activity. The planet is only a bit smaller than the Earth and we believe the interior is similar to Earth's, but Venus has no significant magnetic field.
The planet Jupiter is the 5th planet from the Sun.
To convert Fahrenheit to Celsius, you can use the formula: Celsius = (Fahrenheit - 32) x 5/9. Plugging in the value of 470 Fahrenheit, the conversion would be: (470 - 32) x 5/9 ≈ 243.33 degrees Celsius.
The average temperatures range from 470 deg Celsius on Venus to -200 deg C on Neptune.
It is 470.
Timing for Mercruiser 470 is 8 BTDC at idle speed. Mercruiser Service Bulletin specifies 4 degrees BTDC, due to new gasoline formulation.