White Dwarf

 

Hey! Welcome back to my blog! Have you heard about a white dwarf in space? 

Probably yes! You might have heard the recent news that astronomers have discovered a star that is as small as a moon but with more mass than the sun. This star is a white dwarf!!





Now, are you more curious about it? 

A low or medium mass star (with a mass less than about 8 times the mass of our Sun) will become a white dwarf. The Burned-out core of a star is a white dwarf. Let’s take an example of our sun to understand what white dwarfs are and how they are formed.

Formation of a white dwarf:

Our sun produces heat, for producing heat they need fuel. So like how we use LPG or diesel for fuel, our sun uses hydrogen and helium as its fuel.

The actual process taking place is a fusion of hydrogen with heat to give helium. 

                   HYDROGEN             FUSES WITH HEAT                             HELIUM

                                                         ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€>

This heat energy and gravitational energy are balanced. It’s like the tug of war game where our sun is in the center, where gravity pulls it inwards and heat pulls it outwards. This energy given by both of them is equal causing our sun to be stable. 

But a time will come when the amount of hydrogen present will get reduced so this balance is disturbed; now the gravity is giving high energy, so the sun will start compacting. 

This process gives off heat. Now our sun will use that heat to fuse with a little amount of hydrogen present. Then, the heat slowly gains momentum. Now, the sun will grow bigger than its normal size; it may even swallow mercury. This causes our sun to become a red giant. 


                                 

Now the heat present is high but when it is growing at a very fast rate the overall temperature drops down. Plus not to forget the amount of hydrogen is reduced. 

At one point in time hydrogen will be completely used. So the sun will now be filled only with helium. And the overall temperature is also low. 

Now, what happens? Any guess?? 

Yes! Again gravity wins pulling the sun towards it; this process causes heat. Our sun uses this heat to fuse the helium into carbon.

                   HELIUM               FUSES WITH HEAT                   CARBON

                                                 ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€ä¸€>

So now again it expands but this time larger than the red gain it will definitely swallow our EARTH! 

So now helium is also used. What will happen? It follows the same process, it gets compressed and produced heat expanded but this size is larger than what we had earlier. So again the overall temperature is decreased. 

Carbon does not fuse with heat to give some gas or fuel. So when the amount of carbon present decreases our sun becomes very unstable, it will start losing masses. At one particular point in time, the outer layer would be completely gone! 

With the star now being very compressed, dense with no fuel it turns into a white dwarf. At the beginning of the white dwarf, they will be hot but slowly they will lose all their heat. No longer emitting heat or light, the white dwarf will become a black dwarf. Because it emits no radiation, it is nearly impossible to see. ... Scientists have calculated that a white dwarf will take at least a hundred million billion years to cool down and become a black dwarf.

 Therefore we can conclude that the burned-out core of a star is a white dwarf.




White dwarf stars, so-called because of the white color of the first few that were discovered

The white dwarf will be surrounded by an expanding layer of gas known as planetary nebula. Nebulas are clouds of gas and dust. A planetary nebula is a type of nebula. They are hardly related to planets, not even close but they got their name because of their huge appearance like planets. 



Characteristics of a white dwarf are:

1.      Low luminosity

2.      Dense

3.      Low temperature 

4.      Visible radiation emitted comes in a wide color range.

So, now we know about the white dwarf.

Stay tuned for the next journey!

Links:

  1. Black Hole
  2. Neutron star

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