Some people always suspect that the sun is hollow, so what is it like? Let’s discuss it together.
Scientific research has made the structure of the sun very clear. Of course, no one can go inside to look at it, but we don’t believe in science. Do we have to believe in random imagination or even nonsense?
There are many people who say that we only see the appearance of the sun. The internal structure is speculated by scientists. Is it possible that the interior of the sun is hollow? I don’t know what logic or theoretical basis people who say this are based on the assumption of imagination. In this case, why should they question the speculation of scientists?
It is important to know that scientists’ research on stars is observed after hundreds of years and is analyzed by more and more sophisticated observation instruments, and many spacecraft are sent to observe the dynamics of the sun at a closer distance. All the performance of the sun is in line with mathematical logic. Demonstrated conjectures, such as the operation of sunspots, the flares of flares, the temperature of the sundial, the composition of the solar wind, etc., also analyze the composition of the sun in detail through the spectrum.
The gravitational influence and the measurement of the solar volume can be used to know the quality of the sun. According to the evolution of millions of stars in the Milky Way, it is known that a star such as the sun is a yellow dwarf, and the life and evolution of such a star Wait, etc. These are all well-founded guesses.
As long as anyone can come up with a counter-evidence to falsify this speculation, this guess will go bankrupt, and the new theory will replace the old one.
We don’t believe in such science. Instead, we can imagine that it is hollow. We use this imagination to question scientific arguments. The fool knows that this is a joke. Why are there so many people who believe in these inexplicable doubts? This is the broad lack of basic scientific spirit and scientific literacy.
The solar structure consists of the core, the radiant zone, the troposphere, the photosphere layer, the chromosphere layer, and the corona layer.
The core area is a hydrogen nuclear fusion zone, where nuclear fusion is carried out every moment. 600 million tons of hydrogen per second pass through the thermonuclear fusion reaction to 595.8 million tons of helium, releasing 4.2 million tons of mass of energy. The form of electromagnetic radiation is released into space. Our planet can receive 2 billionth of this energy, which is equivalent to the sum of the power generated by 10 million Three Gorges Dams per second, equivalent to more than 3,000 Hiroshima atomic bombs per second. The power of the explosion.
This data is calculated based on the equivalent of 1368 watts of sunlight received per square meter of the Earth , and the area of the Earth receiving sunlight accounts for 2.2 billionth of the space. From this reverse, the sun can be sent every second. The total energy, which is derived from the mass of hydrogen consumed by the central fusion of the sun, can be derived from the quality of the sun and can still be burned for many years, thus giving the sun a life of 5 billion years.
The photons of the nuclear fusion in the center of the sun are hardly squeezed out in the energy exchange with the particles. After the journey of the solar radius of 696,000 kilometers, it takes more than 100,000 years, and then more than 8 minutes of electromagnetic waves are transmitted. Illuminated on us in the form of sunlight. Therefore, the sunshine we enjoy today is generated by the sun for hundreds of thousands of years or even hundreds of thousands of years ago. At that time, humans may also pick wild fruits in the jungle.
So the sun is a plasma planet, not hollow.
The sun’s center temperature is 15 million degrees Celsius (the same degree), and the pressure is 300 billion atmospheres. What kind of hollow can support this pressure? Only the huge tension of nuclear fusion can support the gravitational pressure of the sun’s huge mass.
The core of the sun occupies 0.25 of the radius of the sun, which is a quarter; the solar radiation zone is above the core of the sun up to a radius of 0.86 sun, which is 0.61 of the radius of the sun, filled with various electromagnetic radiation and particles. The radiation generated by the internal nuclear fusion of the sun is repeatedly absorbed and re-emitted at this distance; the thickness of the troposphere is more than 100,000 kilometers thick, where the temperature, pressure, and density gradients are large, so the amount of solar energy is up and down here. Carrying out hot and cold exchanges inside and outside, relying on convection to transfer energy to the outside; above it is the atmosphere of the sun.
The atmosphere is divided into a photosphere layer, a chromosphere layer and a corona layer. The photosphere layer is an opaque gas shielded above the troposphere. It is about 500 kilometers thick. It separates the sun from the inside and outside. It is a clear boundary of the sun, and all visible light is emitted from this layer.
Above the photosphere is a chromosphere layer with a thickness of about 2,000 km. The temperature of the sun rises from the inside to the outside until the photosphere layer, but rises in the chromosphere, reaching tens of thousands of degrees.
The outermost layer of the sun’s atmosphere is the sundial. The sundial brightness is very low, only visible in the total solar eclipse, but the temperature reaches several million degrees. However, the surface temperature of the sun is mainly the temperature of the photosphere layer, which is about 6000 degrees.
The energy emitted by the sun is transmitted by electromagnetic radiation, which contains visible light and invisible light. The invisible light has ultraviolet rays, infrared rays, microwaves, X-rays, y rays, and the like. The solar aura interacts with the charged particle flow propagating from the solar wind to reach a radius of 50 astronomical units (7.5 billion kilometers) from the sun, where it forms an impact shock with the interstellar space material, which is called the Japanese sheath. This distance is related to the direction of the sun’s movement, which will form a comet-like head and tail, and the tail can be up to 100 days from the sun.
The Voyager 1 and 2 detectors were subjected to shock disturbances when flying over the Japanese sheath. Then the solar particles received less and less, and the interstellar particles became more and more, so they were considered to enter the interstellar space.
Some people regard this as the edge of the solar system, but the astronomical world generally believes that the radius of influence of the sun’s gravitational force is 1 light-year, so the solar system boundary should be in the Orte cloud belt of about 1 light-year.
This is the basic situation that the scientific community believes in the structure of the sun. Space-time communication is a popular science writer. The author of science is not studying science, but disseminating science. It is to transform the theory of consensus in the scientific community into common knowledge and share it with everyone. Time and space communication believes in science, and does not believe in speculation and metaphysics. As for the scientific knowledge that I have spent a lot of time and painstakingly spread, I believe that I can only believe in myself. What do you say?
There have been many articles about the introduction of the sun in space-time communication, and those who are interested are welcome to check it out.