you would weight about 6.4% of what you do on Earth.
the farthest planet away from our sun would be Pluto, but since Pluto is counted as a dwarf planet, Neptune would be the furvest planet away
The common noun would be "dwarf planet."
200-pound person weigh on the planet Mars would be 75.4 pounds
Technically neither. Those classifications are for planets. Pluto is officially a dwarf planet and is referred to as a TNO (Trans Neptunium Object) or a KBO (Kuiper Belt Object). All dwarf planets are solid and rocky/icy.
a few tons.
To the best of our knowledge, no satellites or robots have directly explored the planet Haumea. Haumea is a dwarf planet located in the Kuiper Belt beyond Neptune, and its distance from Earth makes it challenging to send a mission there. Most of our knowledge about Haumea comes from observations made by telescopes on Earth.
A 100 pound man on earth is 10.20401kg. The gravitational acceleration on Haumea is .44m/s^2 so that person would weigh 4.4897956 pounds on Haumea.
As far as we know, Haumea does not have an atmosphere, so the wind speed would effectively be zero.
With our current spacecraft technology, getting a small probe out to the Kuiper Belt to visit a dwarf planet such as Haumea would take at least ten years. As technology improves spacecraft will get faster and more efficient, decreasing travel time, but until then it would take quite a long time.
If a dwarf star crashed into a planet,the planet would likely explode.
The gravity on Ceres - which is a "dwarf planet" or "plutoid" in what is called the asteroid belt - is 3% of Earth's. If the weight of an average man on Earth is 175 pounds, then on Ceres he would weigh 2.25 pounds.
A black dwarf is not a planet; it is the remnant of a long dead star that has cooled. A black dwarf would range from about 7,000 to 17,000 miles in diameter.
In our own solar system, there are eight major planets, ten dwarf planets, two protoplanets, and thousands of minor planets (asteroids). There are also billions of planets outside our own system, but they shall not be named here (it would be impractical to try). Below is a list, in orbital order, of major objects in the solar system, as well as how many known major objects orbit them:Sol (sun) [18 planets, three asteroid belts, two protoplanets, one theoretical dwarf star]Mercury (terrestrial planet)Venus (terrestrial planet)Earth (terrestrial planet) [1 moon, Luna]Mars (terrestrial planet) [2 moons]Asteroid BeltCeres* (dwarf planet)Vesta* (protoplanet)Pallas* (protoplanet)Jupiter (gas giant) [66 moons]Saturn (gas giant) [62 moons]Uranus (ice giant) [27 moons]Neptune (ice giant) [13 moons]Kuiper Belt [asteroids, dwarf planets]Orcus+ (dwarf planet) [1 moon, Vanth]Pluto+ (dwarf planet) [1 planet, Charon, 3 moons]Charon+ (dwarf planet) [1 planet, Pluto, 3 moons]Haumea+ (dwarf planet) [2 moons]Quaoar+ (dwarf planet) [1 moon, Weywot]Makemake+ (dwarf planet)Eris (dwarf planet) [1 moon, Dysnomia]"Snow White" (2007 OR10) (dwarf planet)Sedna (dwarf planet)Oort Cloud [comets, asteroids]Nemesis# (red dwarf star, theoretical)*Orbits within Asteroid Belt+Orbits within Kuiper Belt#Theoretical, sort of like Bigfoot
It is giant. If it was small, it would be a dwarf planet instead of a planet.
Haumea, the dwarf planet, unlike the other 8 planets that we're used to, isnowhere near spherical. So it has many different circumferences, depending onwhere and how you take the 'cross-section'.The on-line reference that I found describes Haumea's shape as something likea large potato, and lists its dimensions as1,960 × 1,520 × 1,000 km (1,220 × 940 × 620 miles).If we were to assume that the cross-section along the largest dimension is circular,then the circumference of that section would be 1,220 x pi = 3,833 miles.Comment: There's something strange about that answer. A dwarf planet by definition has to be roughly spherical. I think Haumea is a "prolate spheroid". That's a shape like an American football, or a rugby ball. Its average radius is very roughly 600 km. (I must say the drawings of Haumea don't look very spherical to me.)So, its circumference must be very roughly 3800 km. That's a coincidence. I get almost the same answer, but in kilometers not miles!
Neptune. It would be Pluto, but Pluto is a dwarf planet ( a planet that was a planet, but decided that it wasn't a planet)
A teaspoon (5ml) of white dwarf material would weigh about 6,500,000 grams or just over 7 metric tons.