No. Part of the definition of a dwarf planet is that it is large enough for gravity to pull it into a round shape. They may be a tiny bit oval shaped, but basically round.
No planet known to man is a perfect sphere (also that I know) so dwarf planets can definitely be any shape
You can consider a dwarf planet to be a special case from an asteroid - one that has achieved hydrostatic equilibrium, which basically means that it has enough gravity to force it into a round shape.
The thing they have in common is the "hydrostatic equilibrium". What this means is that the planet or dwarf planet is large enough, and massive enough, to have a round shape due to its own gravity - a sphere, or in the case of a rapidly spinning object, an ellipsoid.
Dwarf planets are smaller than regular planets. Dwarf planets are smaller than the 8 major planets of our solar system. They are not quite planets as they have not cleared their orbit of sufficient matter. They are roughly spherical in shape and orbit the sun directly, so fulfil these two criteria, but have not achieved the third (sufficiently clearing their orbits).
Too small. (To be even a dwarf planet you must have sufficient mass to give yourself a spherical shape.)
No planet known to man is a perfect sphere (also that I know) so dwarf planets can definitely be any shape
There are hundreds of thousands of known minor planets (asteroids). There might be hundreds of dwarf planets. A dwarf planet is basically an asteroid that is large enough to have a round shape.
You can consider a dwarf planet to be a special case from an asteroid - one that has achieved hydrostatic equilibrium, which basically means that it has enough gravity to force it into a round shape.
The thing they have in common is the "hydrostatic equilibrium". What this means is that the planet or dwarf planet is large enough, and massive enough, to have a round shape due to its own gravity - a sphere, or in the case of a rapidly spinning object, an ellipsoid.
Dwarf planets are smaller than regular planets. Dwarf planets are smaller than the 8 major planets of our solar system. They are not quite planets as they have not cleared their orbit of sufficient matter. They are roughly spherical in shape and orbit the sun directly, so fulfil these two criteria, but have not achieved the third (sufficiently clearing their orbits).
They are a round shape.
Too small. (To be even a dwarf planet you must have sufficient mass to give yourself a spherical shape.)
Pluto, Ceres, Eris, Sedna and Makemake are the five "dwarf planets" designated so far. Ceres, Pluto, Haumea, Makemake and Eris are currently the five bodies classed as dwarf planets, but there are further candidates that could be classed as dwarf planets once more information on their shape has been uncovered.
The planet Mars is round in shape. All of the planets in our solar system are orbits. The gravitational pull of the sun has formed the planets to be around.
Not all Planets are round. Some dwarf planets are not roundRound is a good shape. The force of gravity collapses matter into a spherical shape, once there is enough of it. Small bodies of normal solid matter less than a hundred miles across lack sufficient mass to pull them into a spherical shape.
There isn't much difference except Pluto has a very low mass and is considered a "Dwarf Planet" and part of the Kuiper Belt. The Kuiper Belt is a collection of around 70,000 objects very similar to Pluto. Rules for being a Planet are: 1. Orbits around the Sun 2. Has sufficient mass to assume a nearly round shape 3. Has cleared the neighborhood (is gravitationally dominant) around its orbit Dwarf Planets only meet the first two requirements.
Earth does not meet the dwarf planet criteria. According to the International Astronomical Union, a dwarf planet is an object in orbit around the Sun that is massive enough to have its own gravity pull itself into a round, or nearly round, shape but, unlike a planet, it has not cleared its orbital region of other objects. At present there are 5 recognized dwarf planets in the solar system: Ceres, Pluto, Eris (2003 UB 313), Haumea, and Makemake.