Can We Extinguish the Sun with Water?

Can We Extinguish the Sun with Water? Exploring Science

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We all know from our childhood science lessons that the sun is a burning gas. At the height of summer, when the weather is very hot outside and there is no electricity, I think there are people who think of putting out water to extinguish the sun, which can be so hot. This time, let’s try to solve a strange question, whether it is possible to extinguish the burning sun with water.

On the surface, you can see the sun as a big burning ball of fire. In fact, it is a gas filled with nuclear fusion. If you tell me the way to extinguish the sun, you will think of throwing a big ice cube at the sun. One thing that many people don’t think about is that the heat from the sun is so intense that the ice will either melt or vaporize and split into hydrogen and oxygen atoms, giving the sun more fuel to burn. As more and more flare ups like that, there will be a supernova explosion.

The Sun or big burns endlessly

As we understand it, the sun is a big ball of fire that burns endlessly, and we need heat energy to live. In addition to providing light and energy, it is a star that is the main support for living things.If you think about it imaginatively, you want to extinguish that burning sun. Our average human thoughts will be watered down and snuffed out. There will be enough water for extinguishing. What if all that water was used to extinguish the sun? Continue reading below.

Nuclear Fusion

As I just said, The sun is not a burning ball of fire. At least not the kind of burning that the sun can see on Earth. The sun has a very unique source of fuel, and through that fuel source, combustion processes occur and release energy. This burning process is called nuclear fusion.To make it simple to understand, nuclear fusion is when the nuclei of atoms traveling at a certain speed collide with each other and fuse under intense pressure, releasing a certain amount of energy.

That is called nuclear fusion.Before moving on to other topics, let’s take a deep dive into nuclear fusion.When atoms move closer to each other due to some kinetic energy, the like electrons repel each other, and continue to move closer together when the kinetic energy exceeds the repulsive force.

When they get close, the positively charged protons and uncharged electrons in the atoms are attracted to each other because they are of different species. As they pull closer together, the nuclei of the atoms repulse each other with great speed, knocking the protons and electrons that are currently being pulled back some distance. At that point, the forces of repulsion and attraction become equal, and the two atoms combine into a molecule at a reasonable distance.

This is how atoms join together to form molecules. From that situation, as mentioned above, if a stronger force is applied to the atoms, the atoms will come closer to each other and overcome the repulsion of the nuclei and unite with each other. When these atoms combine and become one atom, enormous energy is released. That is nuclear fusion (or nuclear fusion).(Nuclear Fusion) is called.

How to become Helium atom?

In the sun, hydrogen atoms combine to form new helium atoms.It is very difficult to do nuclear fusion with the current technology in the world. 333,000 cubic meters of pressure, 15 million degrees Celsius. Even in conditions as extreme as the temperature of the Sun’s core in This process can happen.

In the sun, hydrogen atoms fuse together to form new helium atoms due to pressure greater than the repulsion of nuclei, as mentioned above. Every time beyond each level, neutrinos (Neutrinos), It emits positrons and gamma rays.

The net mass of the fused nuclei and newly formed helium atoms is much less than the combined mass of each fused hydrogen atom, and the mass lost is released as pure solar energy.Now that we’re done with nuclear fusion, let’s move on to water. A question that arises is how does water affect nuclear fusion?Imagine that you have somehow found a source of water that has the same mass as the Sun. We assume that we already have that amount of water.

First of all, if the sun were to be extinguished, that water would have to be released through space. In outer space, all that water would freeze. So what

If we send a big ice cube to the sun?

I am sure. As soon as the ice reaches the upper atmosphere of the sun, it will immediately melt and evaporate.That was the first difficulty. The next thing is that the water vapor that has just evaporated to the core of the sun can extinguish the sun because of the same mass of water vapor?

That is impossible. Because the temperature of the sun’s pollen is very intense, it is impossible for that to happen. All the water vapor will separate into hydrogen and oxygen atoms.Do you remember what the East said.. that the primary fuel for the nuclear fusion that produces energy from the burning of the sun is hydrogen atoms.. therefore, pouring water on the sun instead of extinguishing the combustion is like giving fuel to burn more powerfully, and it will not bite the guesswork.

The nuclear fusion that takes place in the sun’s dust is a type of proton-proton fusion. But there are other types of nuclear fusion in the universe with different chemical compositions. One of these is the carbon-nitrogen-oxygen (CNO) reaction.

The weight of the sun

Among the elements that have just broken down is oxygen. If that large amount of oxygen atoms reach the Sun’s dust, the CNO nuclear fusion process just mentioned can occur. When there are more hydrogen atoms and more nuclear fusion, the weight of the Sun will be about 1.7 times more than the original, and as it becomes so large, CNO fusion events can occur continuously.

When CNO fusion and proton-proton fusion combine, the Sun’s mass will be even greater, about 1.3 times its original size, and about six times brighter than it is now. As this happens, temperatures will rise and the sun’s original color will change from bright orange to bluish white, releasing harmful UV rays.

Also, the temperature will be six times more intense than the current sun, so we will all be fried in a frying pan and die sooner or later.The good news is that CNO stars die faster than low-burning stars like the sun in our solar system. Those stars only burn for a few million years before exploding as supernovae and dying.

Sun can exit after supernova explosive?

What is certain is that shortly after the watering, you and we will all die first, and the Sun will continue to exist as a neutron star after a few million years. So, instead of thinking about watering the sun and suffocating it, live in harmony with the weather and don’t lose water. To take care of your health, you can get advice from ZeroKSL. Stay tuned.

Source – Science ABC, Astronomy Magazine, BBC Science

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