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There is only one star in the solar system that is the sun. So to answer your question the sun is. The sun is a main sequence star also. The hottest stars are blue/white ones followed by stars like our own than the coolest stars are red ones
There is no simple relation. The color does not depend only on the mass. The same star can change color, without a significant change in mass. For example, our Sun is currently yellow; in a few billion years, it is expected to get much larger, becoming a red giant. However, if we limit the sample of stars to those on the "main sequence" of the "HR diagram", there is something of a relation between mass and color. The most massive stars are blue or white. They are also hottest and most luminous. The least massive are the red dwarf stars, which are relatively cool and dim. Our Sun, which is a "main sequence" star at present, is somewhere in between those extremes. (There is a strong relationship between mass and luminosity for main sequence stars. The HR diagram, of course, shows there is a relationship between luminosity and color for the main sequence stars.)
Stars are classified by the H-R scale. They are classified by their luminosity and their temperature. They can also be classified by stage; our sun is a main sequence star while the center of the milky way is a black hole(the corpse of a super massive star).
the shortest peak wavelength.
main sequence stars , our sun is also a main sequence star
There is no specific name of such stars. In stellar models they are given the classification of O-type main sequence stars.
There is only one star in the solar system that is the sun. So to answer your question the sun is. The sun is a main sequence star also. The hottest stars are blue/white ones followed by stars like our own than the coolest stars are red ones
There is no simple relation. The color does not depend only on the mass. The same star can change color, without a significant change in mass. For example, our Sun is currently yellow; in a few billion years, it is expected to get much larger, becoming a red giant. However, if we limit the sample of stars to those on the "main sequence" of the "HR diagram", there is something of a relation between mass and color. The most massive stars are blue or white. They are also hottest and most luminous. The least massive are the red dwarf stars, which are relatively cool and dim. Our Sun, which is a "main sequence" star at present, is somewhere in between those extremes. (There is a strong relationship between mass and luminosity for main sequence stars. The HR diagram, of course, shows there is a relationship between luminosity and color for the main sequence stars.)
The Fibonacci sequence starts with 1 and 1. However any sequence in which the first two terms are given and the rest are defined recursively as t(n) = t(n-2) + t(n-1), with n = 3, 4, ... is also known as a Fibonacci sequence. Note the "the" and "a" preceding Fibonacci sequence.
It's not just a keyword, it is also an operator in instance creation. This operator starts the sequence of constructing a new instance of object.
There is a reason its called Death Valley. The hottest day ever there is also the hottest temperature ever recorded on Earth-- 134 degrees in 1913.
December, which also the monsoon.
Yes. The larger or more massive a star is, the faster it has to "burn" hydrogen to stay in Hydrostatic equilibrium.The largest stars, known as population III stars (Formed about 400 million years after the big bang) were massive and used up all of the available hydrogen in millions of years.Our Sun, is not so massive, so will stay on the main sequence for about 10 billion years. Part of this, is not due to it's mass, but also because of the metallicity or the metals within it. This "slows" down the rate of nuclear fusion.
well the troposphere is made up of different layers and the hottest part is the centre which is also known as the astehenosphere
Dicyanoacetylene (C4N2), also called carbon subnitride, is the hottest burning gas, burning at 4990 °C
California has several deserts, but the High Desert, where Death Valley is located is by far the hottest. It is below sea level and frequently the hottest location in North America let alone California.
When a star explodes as a supernova, it has finished it's main sequence, is in maturity and when it finally explodes it's in the stellar remnants stage.A white dwarf star is capable of turning into a supernova if the fusion action is reignited. It can also happen when a star starts to collapse.