Star and formation and there type

Star

 You see in the night sky to small points ,they are very bright and twinkling . This point you see in the night is star and some are plants. Is this article we read about star. And it formation and type.

 Scientific definition of star--

Stars

Stars are the most widely recognized astronomical objects, and represent the most fundamental building blocks of galaxies. The age, distribution, and composition of the stars in a galaxy trace the history, dynamics, and evolution of that galaxy. Moreover, stars are responsible for the manufacture and distribution of heavy elements such as carbon, nitrogen, and oxygen, and their characteristics are intimately tied to the characteristics of the planetary systems that may coalesce about them. Consequently, the study of the birth, life, and death of stars is central to the field of astronomy. 

Point 2-A star is an astronomical object consisting of a luminous spheroid of plasma held together by its own gravity. 

      

Point 3 - Star, any massive self-luminous celestial body of gas that shines by radiation derived from its internal energy sources. Of the tens of billions of trillions of stars composing the observable universe, only a very small percentage are visible to the naked eye.

Point 4-Star

 In the night you see in the sky to small points ,they are very bright and twinkling . This point you see in the night they are called stars and some are planets.

                   

           Please see the bottom of article.

Because some fact and other topics given in the bottom of article. Thanks 👍

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स्टार की वैज्ञानिक परिभाषा--

सितारे

तारे सबसे व्यापक रूप से मान्यता प्राप्त खगोलीय पिंड हैं, और आकाशगंगाओं के सबसे मौलिक निर्माण खंडों का प्रतिनिधित्व करते हैं। किसी आकाशगंगा में तारों की आयु, वितरण और संरचना उस आकाशगंगा के इतिहास, गतिकी और विकास का पता लगाती है। इसके अलावा, तारे कार्बन, नाइट्रोजन और ऑक्सीजन जैसे भारी तत्वों के निर्माण और वितरण के लिए जिम्मेदार हैं, और उनकी विशेषताओं को ग्रहों के सिस्ट की विशेषताओं से पूरी तरह से जोड़ा जाता है।

बिंदु 2- तारा एक खगोलीय वस्तु है जिसमें प्लाज्मा का एक चमकदार गोलाकार होता है जो अपने गुरुत्वाकर्षण द्वारा एक साथ रखा जाता है।

बिंदु 3-  स्टार, गैस का कोई भी विशाल स्व-चमकदार आकाशीय पिंड जो अपने आंतरिक ऊर्जा स्रोतों से प्राप्त विकिरण द्वारा चमकता है। अवलोकनीय ब्रह्मांड की रचना करने वाले अरबों-खरबों सितारों में से केवल एक बहुत छोटा प्रतिशत नग्न आंखों को दिखाई देता है।

बिंदु 4-स्टार

 रात में आप आकाश में छोटे बिंदुओं को देखते हैं, वे बहुत उज्ज्वल और टिमटिमाते हैं। यह बिंदु आप रात में देखते हैं कि उन्हें तारे कहा जाता है और कुछ ग्रह हैं।

             कृपया लेख के नीचे देखें।

क्योंकि लेख के नीचे में कुछ तथ्य और अन्य विषय दिए गए हैं। धन्यवाद 👍

.........🌺🌺🌺🌺🌺🌺🌺🌺🌺🌺🌺🌺🌺🌺🌺🌺🌺.......

In English .

       Formation of star.

According to the NASA ( National Aeronautics and Space Administration ).

   Star Formation

 Stars are born within the clouds of dust and scattered throughout most galaxies. A familiar example of such as a dust cloud is the Orion Nebula. Turbulence deep within these clouds gives rise to knots with sufficient mass that the gas and dust can begin to collapse under its own gravitational attraction.

      

Point 2- According to the Wikipedia the formation of star is.All stars are formed from collapsing clouds of gas and dust, often called nebulae or molecular clouds. Over the course of millions of years, these protostars settle down into a state of equilibrium, becoming what is known as a main-sequence star. Nuclear fusion powers a star for most of its existence.

.........❤️❤️❤️❤️❤️❤️❤️❤️❤️❤️❤️❤️❤️❤️❤️❤️❤️.......

In Hindi all points are-

      स्टार का गठन।

 नासा (नेशनल एरोनॉटिक्स एंड स्पेस एडमिनिस्ट्रेशन) के अनुसार।

    स्टार फॉर्मेशन

  तारों का जन्म धूल के बादलों के भीतर होता है और अधिकांश आकाशगंगाओं में बिखरा हुआ होता है। धूल के बादल जैसे एक परिचित उदाहरण ओरियन नेबुला है। इन बादलों के भीतर गहरापन पर्याप्त द्रव्यमान के साथ समुद्री मील को जन्म देता है कि गैस और धूल अपने गुरुत्वाकर्षण आकर्षण के तहत ढहना शुरू कर सकते हैं।

      

 बिंदु 2- विकिपीडिया के अनुसार तारे का निर्माण होता है। सभी तारे गैस और धूल के बादलों से बनते हैं, जिन्हें अक्सर निहारिका या आणविक बादल कहा जाता है। लाखों वर्षों के दौरान, ये प्रोटोस्टार संतुलन की स्थिति में बस जाते हैं, जो एक मुख्य-अनुक्रम स्टार के रूप में जाना जाता है। परमाणु संलयन अपने अस्तित्व के अधिकांश के लिए एक स्टार की शक्ति है।

   

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Now type of star-The Different Types of StarsThe Different Types of Stars

 1:Protostar. A protostar is what comes before a star has formed – a collection of gas that collapsed from a huge molecular cloud. ...

 2:T Tauri Stars. ...

3:Main Sequence Stars. ...

4:Red Giant Stars. ...

5:White Dwarf Stars. ...

6:Red Dwarf Stars. ...

7:Neutron Stars. ...

8;Supergiant Stars.

Definition is give in bottom. 

You must be thinking aren’t stars all more or less the same? Just big balls of gas burning billions of light-years away in our night sky? Well, actually, stars are as diverse and complex as anything else in our universe and they can be classified into many different types – from white dwarfs to supergiants.

Just as we have yet to discover so much about our universe, scientists are also discovering new things about different types of stars all the time. This means we must broaden our understanding of what a star is and always be open to new discoveries. So, let’s take a look at all the different types of stars that have been discovered so far.

Image of the stars in our night sky

Protostar

A protostar is what comes before a star has formed – a collection of gas that collapsed from a huge molecular cloud. This stage in stellar evolution lasts about 100,000 years. During this period of time just as the collection of gas collapsed to form the protostar, the increase of gravity and pressure causes the protostar to collapse down. This process leaves a pre-main-sequence star which later turns into a main-sequence star when the hydrogen fusion starts.

T Tauri Stars

T Tauri or pre-main-sequence stars are what comes after protostars and before main-sequence stars. These stars symbolize youth and they are named after a young star in the Taurus star-forming region. At this point in stellar evolution, the gravitational pressure that holds the star together is also the source of all its energy. At this stage, they do not have sufficient pressure or a high enough temperature in their cores to onset nuclear fusion. However, they are about the same temperature as main-sequence stars, only brighter because of their larger size. A star will remain in its T Tauri stage for approximately 100 million years before evolving to its next form.

Main Sequence Stars

Most of the stars in our night sky and in the entire universe are main-sequence; also called dwarfs. Our beloved Sun is a main-sequence star, as well as the brightest star in our night sky – Sirius. These stars can vary in size, brightness, and mass, but they all have the same process happening in their cores. They are converting hydrogen to helium, creating a vast amount of energy.

Dwarf stars are in a state of hydrostatic equilibrium which means that gravity is pulling the star inward while the pressure from the fusion reactions is pushing the star outward. These forces balance each other out so that the star remains a sphere. The size of these stars depends on their mass. Some stars can even become 100 times the mass of the Sun.

Red Giant Stars

The next stage in a star’s life happens when all the hydrogen in its core is used up and the fusion stops. This means there is no longer an outward light pressure to counteract the inward pressure pulling the star together. The life of the star continues when the shell of hydrogen around the core ignites and causes the star to massively increase in size. The star then becomes a red giant and can be up to 100 times bigger than it was in its main-sequence stage. This stage of stellar evolution only lasts a few hundred million years. Its life-span is so short because the star only has so many layers of helium to consume before it runs out and becomes a white dwarf.

White Dwarf Stars

A star turns into a white dwarf when it consumes all the layers of helium in its core and runs out of other elements to use as fuel. When the outward light pressure from the fusion reaction stops, the star collapses inward from its own gravity. However, even though the fusion reactions have stopped, the star still shines because of its immense heat. It will take hundreds of billions of years for the white dwarfs to cool down completely meaning that we still don’t know what will happen to the stars after this stage is over.

Image of white dwarf stars

Red Dwarf Stars

These belong to the main-sequence star group. Red dwarfs are the most common stars in the universe. The mass of these stars is so low that they are much cooler than stars like our Sun. They can keep the hydrogen fuel mixing in their core. Therefore, they can save their fuel for much longer. Because of this, astronomers estimate that red dwarfs will burn for up to 10 trillion years.

Neutron Stars

When stars are between 1.35 and 2.1 times the mass of the Sun, these stars don’t become a white dwarf when they die. Instead, an immense supernova explosion causes the star’s death and the remaining core forms a neutron star. This star earned its name due to the extraordinary way it is composed – entirely of neutrons. This happens because the star has an intense gravity that crushes the electrons and protons together and forms neutrons. If the star is more than 2.1 times the mass of the Sun, then the supernova explosion will turn into a black hole.

Supergiant Stars

Yes, you guessed it, these are the largest stars in the universe. Supergiants are humongous and are dozens of times the mass of the Sun. Because these stars consume their hydrogen fuel at an accelerated rate, they die out after only a few million years. When a supergiant star dies it creates a supernova explosion and completely disintegrates in the process.

As you can see, stars come in many different masses, sizes, and colors. By knowing more about stellar evolution, we can understand more about our universe. Did you know that there are over 100 billion stars in our universe? And at Cosmonova you can name all the brightest ones. Now let’s name a star so that we can be a part of our universe for as long as that star lives, which as we now know, is basically for infinity and beyond.