Seven wonders of Space: how unusual are the planets? Wonders of Space: interesting facts about the planets of the solar system. Amazing discoveries or interesting facts about the planets of the solar system.
The first miracle: the planet of x-rays and ultraviolet
The first exoplanet, i.e. the planet, which is not part of the solar system, was discovered back in 1992. This unfriendly planet orbits a pulsar. A pulsar is a magnetized, spinning top-like neutron star. She was once one of the familiar suns, and now she is old and dying. No, and there can be no chance of finding life in any form on such a planet, because the pulsar star floods everything around with high-level X-rays and ultraviolet rays. Be that as it may, the deadly world itself can look quite nice despite all this.
Second miracle: planet core
A planet with a high density of matter can be easily detected using a powerful modern telescope. Astronomers believe that there are many planets in the Universe that are entirely made of iron. That is, from which, as a result of space “adventures,” only a metal core remained. Our Mercury is very similar to such a celestial body - 40% of its volume is occupied by a “core”, similar to a huge cannonball.
The third miracle: the sky in diamonds
If the search for a giant cannonball is a boring task, then what can you say about a sparkling new world consisting of pure carbon - that modification called diamond. A diamond planet could form in a carbon-rich star system. Such bodies are already known to science. Some cold suns revolve around planets whose surface consists of graphite, and in their depths, due to strong pressure, a diamond core has formed! One such planet can pay off all the debts of humanity to humanity.
Astronomers know where to look for such planets - in orbits around white dwarfs and neutron stars, where the ratio of carbon to oxygen is very high. For example, carbon planets were discovered in the pulsar system PSR 1257+12.
On the other hand, it is impossible to determine whether there are diamonds inside such celestial bodies. Moreover, the atmosphere of coal planets should be cloudy, like smoke from a chimney.
Volcanic eruptions on such planets can “spit” diamonds onto the surface, forming diamond mountain ranges and even entire valleys.
The fourth miracle: planets are balls of gas
Most of the planets discovered by people are gas giants. For example, frozen, like Jupiter. But there are also so-called “hot Jupiters” that orbit close to their suns.
“Earth (lat. Terra) is the third planet from the Sun in the Solar System, the largest in diameter, mass and density among the terrestrial planets.
And who would doubt it! After all, we are simply accustomed to it, to everything beautiful and unusual on earth: what floats in the deep oceans and what grows under the hot sun. To what makes us find hidden strengths within ourselves, to what makes us happy, and to what frightens us to the core.
If the Earth dies, it will be the saddest loss for the Universe. So let’s take care of it, our planet, to the best of our ability, intelligence and love!
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THE SOLAR SYSTEM IS NOT A FLAT “DISC”
The Earth does not revolve around the Sun, as we were taught in school.
In order to figure out what's what, you need to look at the Earth from the Sun or Moon.
What if you receive the information: The Sun revolves around the Earth!?
You will experience an internal emotional drama. You will refuse to accept it.
If you want to know the exact state of things, you still need to be on the Sun. At the moment this is not possible.
Even spacecraft will not help you figure out what revolves around what. There is no point in Our Universe - any basis by which one could judge the movement of something.
Based on this, we come to understand: Why the planets of the solar system do not actually revolve around the Sun, as they taught in school.
Rather, we come to understand that the planets are entrained by the Sun and move in a spiral through the Universe.
An explanation is proposed: how, in addition to rotating on its axis and rotating as if around the Sun, the Earth follows the moving Sun through the Milky Way galaxy - in a continuous spiral, and not a flat elliptical plane.
We are moving from a representation of the Solar System - from a planar model to a three-dimensional picture.
Believe it or not, there is no empirical evidence that the Earth actually revolves around the Sun!
Many of us have been reassured about how the solar system works by viewing its physical model, which has the sun at the center.
The planets move around the Sun in a simple circular orbit without proper consideration of the Sun's movement through Our Galaxy - the Milky Way (approximately 450,000 miles per hour).
The sun and the Milky Way galaxy move in space.
The Earth moves in a spiral an unimaginable distance in space throughout the year.
How “fast” the Earth moves depends on the reference point you use.
You use something “stationary” or “background”, although all objects in the Universe are in motion.
The Earth rotates on its own axis - 0-1040 mph (depending on the latitude where the observer is located). The Earth rotates around the Sun at approx. 66,629 mph
The Sun revolves around the galactic center - approx. 447,000 mph
Considering the speed of the Sun, we learn that the Earth travels around Our Galaxy - 3918402000 miles per year! (Because it, in addition, revolves around the Sun).
The general speed of the Earth - movement in space is difficult to even approximately calculate. It is impossible to establish the entire set of movements.
The movement of the cosmic microwave background (relict radiation) relative to the movement of the Earth is approx. 1,342,000 mph
Or 11763972000 miles in 1 year! (only 0.2% of the speed of light!).
The old model of the Solar System shows a stationary picture of the Existence of “where the beginning came from.”
After a year has passed, this “time” is the past.
You are, in fact, over 11 billion miles from where you were a year ago!
It is necessary to understand that the movement of the Earth in our solar system looks different.
The true motion of the Earth around the Sun occurs in a spiral. In addition to rotating around its axis and around the Sun, the Earth follows the movement of the Sun throughout the Milky Way galaxy.
Such knowledge brings an understanding of the larger reality of the solar system - with a more logical perception.
Our scientists are constantly “tossing” “new” evidence to inquisitive humanity about what the solar system was like before.
There is a curious series of facts according to which “A BILLION YEARS AGO” - the Moon was allegedly located at a distance of 30 thousand kilometers from the Earth.
At the same time, the Earth rotated around its own axis six times faster, i.e., there were only “four hours” in an Earth day.
Our usual “YEAR” (a year on Earth “today”) consists of 365 “days”, with the number of “hours” in a “day” equal to twenty-four. Thus, we get: 24 x 365 = 8760 “hours”.
For the rotation of the Earth accelerated six times around its own axis, we obtain:
8760: 4 = 2190 “days”.
What is the number of “days” required for the Earth to complete one revolution around the Sun? It’s not a fact that it’s 799350.
The “year” of the Earth, determined by one revolution around the Sun, with “its daily rotation of four hours” remains unexplored.
By what right do scientists operate with “facts” that the above-mentioned event took place “A BILLION YEARS AGO?”
By what right do scientists extend their “human time to the entire Universe, and claim that the above-mentioned event took place - “A BILLION YEARS AGO?” WHAT YEARS?
What do we have “today”:
“The earth rotates on its own axis - 0-1040 miles/hour.” The Earth revolves around the Sun at approx. 66,629 miles/hour. The Sun revolves around the galactic center - approx. 447,000 miles/hour.
Considering the speed of the Sun, we learn that the Earth travels around Our Galaxy - 3918402000 miles in “our human year”! (Because, in addition, it also revolves around the Sun).”
The general speed of the Earth - movement in space is difficult to even approximately calculate. It is impossible to establish the entire set of movements.
The given parameters of the Solar system show a “momentary” picture of Genesis - what we observe “today”.
After each “year”, this “time” is the “past”.
No amount of tricks will help you figure out what revolves around what. There is no point in Our Universe - any basis by which one could judge the nature of the movement and duration of existence of cosmic objects, ... especially on the scale of our “human time”.
In space, everything moves and it is impossible not only to understand what is moving, but also what is moving around what.
Attempts to understand such ideas about Our World, without “human time”,
replenish our energy-informational content - give an understanding, in the human mind, about the dynamics of the energy-informational content of the planet Earth (about its addition to other objects - to the energy-informational content of Our Universe).
Our understanding deepens in the realization that we are, to some extent, witnesses to the real transformation of Our World.
Recently, astronomers discovered a couple of new exoplanets in intergalactic space. At this time, several hundred such planets are known. What might they look like? Should people study them?
Either way, all of these planets are amazing and deserve our attention.
Let's start with the planet of x-rays and ultraviolet
exoplanet
This exoplanet, that is, a planet that is not part of the Solar System, was discovered in the early 90s of the last century. It orbits a pulsar, which is a magnetized, spinning top-like neutron star. This unfriendly planet used to be one of the ordinary suns, but is now old and dying. There is not the slightest chance of detecting life in any form on this planet, because the pulsar star fills all nearby space with high levels of X-ray and ultraviolet radiation. Despite this, the planet itself can look quite attractive.
The second miracle is the core planet
On this planet, the matter has a very high density; such a planet can be found without problems using modern powerful telescopes. Scientists think that there are many planets in the Universe that are entirely made of iron. As a result of their space “adventures,” all that was left of these planets was a metal core. Our Mercury is very similar to such a cosmic object - almost half of its volume is a “core”, similar to a huge cannonball.
Third miracle: diamond stars
If you think that the search for a huge cannonball is not worthy of attention, then what about a shiny new world that is made entirely of pure carbon - the kind of carbon we call diamond. The formation of a diamond planet is possible only in a star system that is sufficiently saturated with carbon. Such objects are known to science today. In the orbits of some cold suns, bodies rotate, the upper part of which is graphite, and the depths, due to enormous pressure, formed into a diamond core! A small piece of such a planet will be enough to pay off all debts between states.
Scientists know that such planets can be found in orbits around white dwarfs and neutron stars, where there is hundreds of times more carbon than oxygen. For example, such “precious” planets were found in the pulsar system PSR 1257+12.
Volcanic eruptions on these planets can “spew” diamonds to the surface, forming diamond mountain ranges and even entire fields of diamonds.
The fourth miracle: planets made of gas
The majority of planets found by people are gas giants. There is such a planet in our system - it’s cold Jupiter. However, there are also so-called “hot Jupiters”, which are at a much smaller distance to their stars than our Jupiter is to the Sun.
For example, 51 Pegasus B is a gas giant that is significantly larger than Saturn. The atmosphere of 51 Pegasi B is incredibly dense, and the temperature on its surface is approximately a thousand degrees Celsius. At this temperature, even glass instantly turns into silicate vapor.
Fifth miracle: planets made of water
Exoplanet GJ 1214b may well be an ocean planet. Measurements of its temperature, mass and radius indicate that the planet has a small rocky core inside, and the remaining space (about 75%) is liquid water.
Such a world has a strong gravitational field, as a result of which the water is at a temperature of approximately two hundred degrees Celsius, but it does not boil away. Planet GJ 1214b revolves around its star in a highly elongated orbit, which is why the colossal deep ocean freezes completely in “winter.”
Sixth Wonder: Hell
This planet can easily be mistaken for the biblical hell.
There is one terribly hot place in our Galaxy. This hot planet is so close to its star that it, in turn, is slowly but steadily absorbing it. This exoplanet is called WASP-12b and is located in the constellation Auriga. She will never be able to overcome the attraction of her yellow sun (which is 1.5 times larger than ours).
This planet has an oval shape. The temperature on its surface is approximately a thousand degrees, and its mass is forty times greater than our Jupiter.
Seventh Wonder: Earth
Space is beautiful, and it really is close. After all, if you could drive up in a car, it would only take you about an hour to reach outer space. But, alas, such cars have not yet been invented, however, you can always buy a car in Mogilev, go out of town and enjoy the planets, nebulae and galaxies through the eyepiece of a telescope.
Earth is a planet in the solar system, the largest in diameter, mass and density among the terrestrial planets.
No one doubted that the Earth would take its place on this list, because living on it we do not notice that it is beautiful and unusual.
If the Earth disappears, it will probably be the saddest news for the Universe. So let's save our planet to the best of our ability, intelligence and love!
The first exoplanet, i.e. the planet, which is not part of the solar system, was discovered back in 1992. This unfriendly planet orbits a pulsar. A pulsar is a magnetized, spinning top-like neutron star. She was once one of the familiar suns, and now she is old and dying. No, and there can be no chance of finding life in any form on such a planet, because the pulsar star floods everything around with high-level X-rays and ultraviolet rays. Be that as it may, the deadly world itself can look quite nice despite all this.
Second miracle: planet core
A planet with a high density of matter can be easily detected using a powerful modern telescope. Astronomers believe that there are many planets in the Universe that are entirely made of iron. That is, from which, as a result of space “adventures,” only a metal core remained. Our Mercury is very similar to such a celestial body - 40% of its volume is occupied by a “core”, similar to a huge cannonball.
The third miracle: the sky in diamonds
If the search for a giant cannonball is a boring task, then what can you say about a sparkling new world consisting of pure carbon - that modification called diamond. A diamond planet could form in a carbon-rich star system. Such bodies are already known to science. Some cold suns revolve around planets, the surface of which consists of graphite, and in the depths, due to strong pressure, a diamond core has formed! One such planet can pay off all of humanity's debts to humanity.
Astronomers know where to look for such planets - in orbits around white dwarfs and neutron stars, where the ratio of carbon to oxygen is very high. For example, carbon planets were discovered in the pulsar system PSR 1257+12.
On the other hand, it is impossible to determine whether there are diamonds inside such celestial bodies. Moreover, the atmosphere of coal planets should be cloudy, like smoke from a chimney.
Volcanic eruptions on such planets can “spit” diamonds onto the surface, forming diamond mountain ranges and even entire valleys.
The fourth miracle: planets are balls of gas
Most of the planets discovered by people are gas giants. For example, frozen, like Jupiter. But there are also so-called “hot Jupiters” that orbit close to their suns.
For example, 51 Pegasus B is a gas giant larger than Saturn. The atmosphere of 51 Pegasi B is an extremely dense planet, and the temperature on its surface reaches 1100 C. At this temperature, glass quickly turns into silicate vapor.
The Fifth Wonder: Ocean Planets
Exoplanet GJ 1214b may turn out to be a giant ocean. Measurements of its temperature, mass and radius indicate that inside the planet there is a small rocky core, and the rest - more than 75% of the substance - is liquid water.
The water world has a powerful gravitational field, so water at a temperature of about 200 degrees Celsius remains hot without boiling away. Planet GJ 1214b orbits a red star. Its orbit is very elongated, so in “winter” the huge bottomless ocean freezes completely.
Sixth Wonder: Hell
If Hell really existed, then it would definitely be on this planet.There is one very warm place in the Milky Way galaxy. This hot planet is so close to its sun that the star is powered by it. This exoplanet is called WASP-12b (constellation Auriga) and it will never escape from the tenacious “paws” of its yellow sun (which is one and a half times larger than ours) until it fries it and eats it to the last electron.
The shape of the hot planet resembles a rugby ball. The temperature on its surface reaches 1500 degrees. It weighs 40 times more than Jupiter.
Seventh Wonder: Earth
Earth? (lat. Terra) is the third planet from the Sun in the Solar System, the largest in diameter, mass and density among the terrestrial planets.And who would doubt it! After all, we are simply accustomed to it, to everything beautiful and unusual on earth: what floats in the deep oceans and what grows under the hot sun. To what makes us find hidden strengths within ourselves, to what makes us happy, and to what frightens us to the core.
If the Earth dies, it will be the saddest loss for the Universe.
