Main Sequence Star Facts That Will Amaze Every Astronomy Lover

Oluniyi Akande
Oct 19, 2023 By Oluniyi Akande
Originally Published on Aug 23, 2022
Get acquainted with main sequence star facts here.
Age: 1-99
Read time: 8.2 Min

Most stars in the Universe are main sequence stars.

They are stable, formed by the combination of Hydrogen atoms. In this process, it produces light, generates energy, and gives helium nuclei.

In the life cycle of a star, it should remain stable in the main sequence star phase of its life. You may not have known that our sun is a main sequence star. The age of the Sun is half-life done. After five billion years it will reach the red giant stage.

In the main sequence stage, the core region is in a state of equilibrium. Actually, the pressure created by the fusion reaction is equal to the gravitational pull. This keeps the star together in a spherical shape under its own gravity. As the observer goes closer to the center the pressure and heat will increase. The length of the life of each star in every stage is dependent on its solar mass.

Another interesting fact is that the more the mass of a star, the faster it will use up and eventually collapse. Large stars emit blue light as they are hotter. The smaller stars appear red as they emit lesser light. The main sequence phase of massive stars is reached right after the stellar nebula stage collapses. The ProStar so formed will reach a fixed temperature for the fusion to start, the smaller nuclei fuse together to form heavier nuclei. This, in turn, supports the life cycle of the star. Photons are released in this process of nuclear reaction.

The composition of the main star is Helium and Hydrogen. Rarely there can be some heavier elements. The different stages of a life cycle of a star are the first stage of tiny brown dwarfs. Then they end up being red stars or massive stars turning into blue supergiants. The different stages do not come in all the stars' life, it depends on the size of the star. There can be hot stars or cool stars all depending on the composition over billion years of the life cycle.

Types of Main Sequence Stars

There are various types of main sequence star mainly depending on the light absorbed.

Astronomers have long been intrigued by the various sizes and hues of stars they have observed. In 1817, Joseph von Fraunhofer, a German instrument manufacturer, coupled a spectroscope to a telescope and focused it on the stars. He discovered that various stars' spectra had distinct absorption lines. At first, astronomers couldn't figure out why various stars had varied absorption lines.

In the 1900s, a group of astronomers at Harvard College Observatory came together. They began an investigation into the spectra of hundreds of thousands of stars. On the basis of the absorption lines they saw, they intended to create a thorough spectral categorization system. They modified an established spectral class system that allocated letters from A to O to stars based on the intensity of Balmer series absorption lines.

The new method rearranged the classes in the order OBAFGKM. O stars are hot stars. Each one gets cooler as you move down the sequence. M stars are cool stars. By appending a number from zero to nine to the end of each letter, the range was separated into tenths. The least common is O and the most common is M. Stars in the initial and final stages have not been included in this classification. It was known as the Henry Draper Catalogue.

Examples of O stars that are blue or violet in color are Stars in Orion's belt. While for B which is blue-white in color, Rigel is an example. A stands for the white stars like Sirius. F is the yellow-white colored stars like Polaris. G stands for the yellow stars like our very own sun. While K is for orange ones like the Arcturus. The last one is M, the red-orange star, Proxima Centauri.

stars in the Universe are main sequence stars

The Science Behind Main Sequence Stars

The stars have been our fascination since childhood. So it is very enthralling to learn more about the actual science behind them.

Stars are born within dust clouds and are dispersed throughout most galaxies. The Orion Nebula is the best example of such a dust cloud. Deep within these clouds, turbulence creates knots with enough mass that the gas and dust begin to disintegrate under their own gravity.

In the stellar evolution, the material at the heart of the cloud begins to heat up as it compresses. This heated core in the center of the collapsing cloud is known as a protostar. It will one day become a star. Spinning clouds made up of collapsing gas and dust may split into two or three blobs. This explains why the vast majority of stars in the Milky Way are paired or in groups.

As the cloud disintegrates, a dense, heated center emerges and begins to collect dust and gas. Not all become a star. A few may become planets, asteroids, or comets, or they may remain as dust. Stars are powered by the exothermic nuclear fusion of hydrogen to generate helium deep into their cores. The discharge of energy from the star's center regions supplies both the pressure required to prevent the star from collapsing due to its own weight and the energy that enables it to shine.

Characteristics & Properties Of Main-sequence Stars

A star is simply a large ball of plasma that radiates light into space. Our solar system contains only one star which is our Sun.

Our galaxy contains billions upon billions of stars.  infinitely more must be existing throughout the universe's billions of galaxies. A star's essential features include its brightness, color, temperature on its surface, size, and mass.

Brightness: Further two components make up brightness, luminosity, and magnitude. A star's luminosity is the intensity of light it emits. The brightness of a star is determined by its size and surface temperature. A star's magnitude is its apparent brightness after factoring for size and distance, however, absolute magnitude is its real brightness regardless of its proximity to Earth.

Color: The color of a star changes with its surface temperature. Cool stars appear red while the hot ones appear blue. Mid-range ones are white or yellow in color just like sun in our solar system. A few stars have blended colors as well.

Surface Temperature: The temperature of a star is measured on the Kelvin scale by astronomers. Zero degrees Kelvin is hypothetically absolute and corresponds to -273.15 degrees Celsius. The coldest, red stars have temperatures of 2,500 K. The hottest stars may reach temperatures of 50,000 K. Our sun has a temperature of roughly 5,500 K.

Size: The radius of a star is measured in comparison to our sun. Ss 1 solar radii is the star having a radius equal to Sun. Rigel has 78 solar radii.

Mass: The mass of a star is also measured in comparison to the Sun. With the sun as a reference, one mass will be the same mass as Sun. Rigel has a 3.5 Solar mass. The same size is not always the same solar masses as the density plays a major role.

There are so many facts to be learned about the stars in our universe. Stars have been around for a billion years and more. We have started learning about their gravity, luminosity, pressure, and other aspects that are visible from earth.

A new star may in recent times has been designated as the main sequence simply by its hue. When viewed from a normal distance, every main sequence star has a particular hue. This is a narrow band of brightness and color. By comparing the brightness of this newly discovered star to the brightness of our Sun, an astronomer might designate the star and its stage.

FAQs

What are two other facts about the main sequence star?

The sun is a main sequence star closest to our earth. Hydrogen is converted into Helium by fusion reaction and a high amount of heat and light is emitted in all the main sequence stars.

What is special about main sequence stars?

There is a fusion reaction taking place in a sequence star. It is the most stable state for a star. The star is generally spherical under its own pressure and gravity balance.

What three properties are common in the main sequence star?

Hydrogen undergoes a fusion reaction to form Helium. They all emit heat and light. They are most stable for over a billion years.

What are four characteristics of the main sequence star?

Four main characteristics are size, color, luminosity, and brightness.

How is the sun classified?

The sun is a main sequence star.

When does a star become a main sequence star?

When fusion reaction starts in the star from hydrogen converting to Helium, the star becomes a main sequence star.

What are stars composed of?

Stars mainly have Hydrogen and Helium. Rarely do they have heavier elements like oxygen or carbon.

What determines how long a star will live?

The mass of a star determines its life as heavier stars burn up faster.

How long do stars live?

Stars can live up to millions of billions of years. Most stars in the Milky Way galaxy are main-sequence stars. Since they are very stable they should stay there for a long period.

How is a red giant formed?

Once the main sequence stage of the star is over it can become a red giant star.

What is the typical main sequence lifetime of a g-type star?

The lifetime of a g Type star is close to 10 billion years.

What happens when a main sequence star runs out of hydrogen?

The Fusion reaction should stop when the hydrogen is finished in a star and it can convert into a red giant star.

Which star spends the longest time as a main-sequence star?

A small dwarf star can spend the most time in the main sequence phase. As smaller stars burn up slower than others.

We Want Your Photos!
We Want Your Photos!

We Want Your Photos!

Do you have a photo you are happy to share that would improve this article?
Email your photos

More for You

Sources

https://www.universetoday.com/24299/types-of-stars/ https://sciencing.com/characteristics-star-5916715.html

https://science.nasa.gov/astrophysics/focus-areas/how-do-stars-form-and-evolve#:~:text=Main Sequence Stars&text=Stars are fueled by theenergy by which it shines.

https://kids.kiddle.co/Main_sequence

https://www.storyboardthat.com/space-words/main-sequence-star

See All

Written by Oluniyi Akande

Doctorate specializing in Veterinary Medicine

Oluniyi Akande picture

Oluniyi AkandeDoctorate specializing in Veterinary Medicine

With an accomplished background as a Veterinarian, SEO content writer, and public speaker, Oluniyi brings a wealth of skills and experience to his work. Holding a Doctor of Veterinary Medicine degree from the University of Ibadan, he provides exceptional consulting services to pet owners, animal farms, and agricultural establishments. Oluniyi's impressive writing career spans over five years, during which he has produced over 5000 high-quality short- and long-form pieces of content. His versatility shines through as he tackles a diverse array of topics, including pets, real estate, sports, games, technology, landscaping, healthcare, cosmetics, personal loans, debt management, construction, and agriculture.

Read full bio >