giants, supergiants, dwarfs
Little stars, also known as dwarf stars, can range in size from about one-tenth the size of our sun to around half the size of our sun. These stars are smaller and cooler than average stars like our sun.
Nope. It depends on how much matter the star was immersed in during its formation. More matter equals more size and vice versa.
There is no real classification for stars by size, they are usually classified by luminosity However, a rough guide is:-HypergiantsSupergiantsBright GiantsGiantsSub giantsDwarfsSub dwarfsRed dwarfsWhite dwarfsBrown dwarfsNeutron starsSee related link for a spectral class breakdown and examples
Some stars are bigger than the planet like the sun but some are small. The size varies.
No, stars with the same color do not necessarily have the same size. Color in stars is primarily determined by their temperature, with hotter stars appearing blue and cooler stars appearing red. However, stars of the same temperature can vary significantly in size, as they may belong to different classes, such as dwarfs, giants, or supergiants. Thus, while color can indicate temperature, it does not provide a definitive measure of a star's size.
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The sequence of stars listed in order of increasing luminosity typically includes red dwarfs, main-sequence stars (like our Sun), giant stars, and supergiant stars. Red dwarfs are the least luminous, followed by main-sequence stars, then giant stars, and finally supergiants, which are the most luminous. This order reflects the increasing energy output and size of the stars as they evolve.
The list that orders rocks in increasing grain size and increasing grade of metamorphism is: shale (fine-grained) - slate (fine-grained) - phyllite (medium-grained) - schist (medium to coarse-grained) - gneiss (coarse-grained).
A monotonic increasing series.
It doesn' t have to be any size, the size is just how it turned out. But stars have to be a certain size in order to produce enough heat and pressure to get nuclear reactions started, which is when they become stars.
Gravel, cobble and boulder (in increasing order of size).
Estimates of the number of stars range from 10 sextillion (1022) and 1 septillion (1024). I doubt if anyone on Answers.com is likely to name and order them by size.
Designations given to orbitals, in the order atoms of increasing size require them.
micrometer,centimeter,millimeter,meter
Scientists classify stars by size based on their mass. Stars can be categorized as dwarf stars (like our Sun), giant stars, or supergiant stars, with the size increasing as the mass of the star increases. The classification can also include specific categories such as red dwarfs, white dwarfs, or blue giants, depending on additional characteristics.
From largest to smallest:galaxysolar systemstarplanet
mercury venus earth mars Jupiter Saturn Uranus neptune * * * * * VERY SERIOUSLY WRONG! All these are planets not stars! Also, they are in the order of their distance from the sun (a star) rather than in order of size.