Speed ​​of the solar system.  Flash computer model of the solar system with date input

The solar system consists of eight planets and more than 63 of their satellites, which are being discovered more and more often, as well as several dozen comets and a large number of asteroids. All cosmic bodies move along their own clearly directed trajectories around the Sun, which is 1000 times heavier than all the bodies in the Solar System combined.

How many planets revolve around the sun

How the planets came to be solar system: approximately 5-6 billion years ago, one of the disk-shaped gas and dust clouds of our large Galaxy (Milky Way) began to shrink towards the center, little by little forming the present Sun. Further, according to one theory, under the influence powerful forces attraction, a large number of dust and gas particles revolving around the Sun began to stick together into balls - forming future planets. As another theory says, the gas and dust cloud immediately broke up into separate clusters of particles, which compressed and became denser, forming the current planets. Now 8 planets revolve around the Sun constantly.

The center of the solar system is the Sun, a star around which the planets orbit. They do not emit heat and do not glow, but only reflect the light of the Sun. There are now 8 officially recognized planets in the solar system. Let us briefly list them all in order of distance from the sun. And now a few definitions.

Satellites of the planets. The solar system also includes the Moon and the natural satellites of the other planets, which they all have except Mercury and Venus. Over 60 satellites are known. Most of the satellites of the outer planets were discovered when they received photographs taken by robotic spacecraft. Jupiter's smallest satellite, Leda, is only 10 km across.

The sun is a star without which life on Earth could not exist. It gives us energy and warmth. According to the classification of stars, the Sun is a yellow dwarf. Age about 5 billion years. It has a diameter at the equator of 1,392,000 km, 109 times larger than that of Earth. The rotation period at the equator is 25.4 days and 34 days at the poles. The mass of the Sun is 2x10 to the 27th power of tons, approximately 332,950 times the mass of the Earth. The temperature inside the core is approximately 15 million degrees Celsius. The surface temperature is about 5500 degrees Celsius.

By chemical composition The sun is made up of 75% hydrogen, and the other 25% elements are mostly helium. Now let’s figure out in order how many planets revolve around the sun, in the solar system and the characteristics of the planets.

Planets of the solar system in order from the sun in pictures

Mercury is the 1st planet in the solar system

Mercury. The four inner planets (closest to the Sun)—Mercury, Venus, Earth, and Mars—have a rocky surface. They are smaller than the four giant planets. Mercury moves faster than other planets, being burned by the sun's rays during the day and freezing at night.

Characteristics of the planet Mercury:

Period of revolution around the Sun: 87.97 days.

Diameter at the equator: 4878 km.

Rotation period (rotation around an axis): 58 days.

Surface temperature: 350 during the day and -170 at night.

Atmosphere: very rarefied, helium.

How many satellites: 0.

The main satellites of the planet: 0.

Venus is the 2nd planet in the solar system

Venus is more similar to Earth in size and brightness. Observing it is difficult due to the clouds enveloping it. The surface is a hot rocky desert.

Characteristics of the planet Venus:

Period of revolution around the Sun: 224.7 days.

Diameter at the equator: 12104 km.

Rotation period (rotation around an axis): 243 days.

Surface temperature: 480 degrees (average).

Atmosphere: dense, mostly carbon dioxide.

How many satellites: 0.

The main satellites of the planet: 0.

Earth is the 3rd planet in the solar system

Apparently, the Earth was formed from a gas and dust cloud, like other planets in the solar system. Particles of gas and dust collided and gradually “grew” the planet. The temperature on the surface reached 5000 degrees Celsius. Then the Earth cooled and became covered with a hard rock crust. But the temperature in the depths is still quite high - 4500 degrees. Rocks in the depths are molten and during volcanic eruptions they flow to the surface. Only on earth there is water. That's why life exists here. It is located relatively close to the Sun in order to receive the necessary heat and light, but far enough so as not to burn out.

Characteristics of planet Earth:

Period of revolution around the Sun: 365.3 days.

Diameter at the equator: 12756 km.

Period of rotation of the planet (rotation around its axis): 23 hours 56 minutes.

Surface temperature: 22 degrees (average).

Atmosphere: Mainly nitrogen and oxygen.

Number of satellites: 1.

The main satellites of the planet: the Moon.

Mars is the 4th planet in the solar system

Because of its resemblance to Earth, it was believed that life existed here. But the spacecraft that descended to the surface of Mars found no signs of life. This is the fourth planet in order.

Characteristics of the planet Mars:

Period of revolution around the Sun: 687 days.

Diameter of the planet at the equator: 6794 km.

Rotation period (rotation around an axis): 24 hours 37 minutes.

Surface temperature: -23 degrees (average).

The planet's atmosphere: thin, mostly carbon dioxide.

How many satellites: 2.

The main satellites in order: Phobos, Deimos.

Jupiter is the 5th planet in the solar system

Jupiter, Saturn, Uranus and Neptune are made of hydrogen and other gases. Jupiter exceeds Earth by more than 10 times in diameter, 300 times in mass and 1300 times in volume. It is more than twice as massive as all the planets in the solar system combined. How long does it take for planet Jupiter to become a star? We need to increase its mass by 75 times!

Characteristics of the planet Jupiter:

Period of revolution around the Sun: 11 years 314 days.

Diameter of the planet at the equator: 143884 km.

Rotation period (rotation around an axis): 9 hours 55 minutes.

Planet surface temperature: -150 degrees (average).

Number of satellites: 16 (+ rings).

The main satellites of the planets in order: Io, Europa, Ganymede, Callisto.

Saturn is the 6th planet in the solar system

It is number 2, the largest of the planets in the solar system. Saturn attracts attention thanks to its ring system formed of ice, rocks and dust that orbit the planet. There are three main rings with an outer diameter of 270,000 km, but their thickness is about 30 meters.

Characteristics of the planet Saturn:

Period of revolution around the Sun: 29 years 168 days.

Diameter of the planet at the equator: 120536 km.

Rotation period (rotation around an axis): 10 hours 14 minutes.

Surface temperature: -180 degrees (average).

Atmosphere: Mainly hydrogen and helium.

Number of satellites: 18 (+ rings).

Main satellites: Titan.

Uranus is the 7th planet in the solar system

A unique planet in the solar system. Its peculiarity is that it rotates around the Sun not like everyone else, but “lying on its side.” Uranus also has rings, although they are harder to see. In 1986, Voyager 2 flew at a distance of 64,000 km and had six hours of photography time, which it successfully completed.

Characteristics of the planet Uranus:

Orbital period: 84 years 4 days.

Diameter at the equator: 51118 km.

Period of rotation of the planet (rotation around its axis): 17 hours 14 minutes.

Surface temperature: -214 degrees (average).

Atmosphere: Mainly hydrogen and helium.

How many satellites: 15 (+ rings).

Main satellites: Titania, Oberon.

Neptune is the 8th planet in the solar system

On at the moment, Neptune is considered the last planet Solar system. Its discovery took place through mathematical calculations, and then it was seen through a telescope. In 1989, Voyager 2 flew by. He took stunning photographs of the blue surface of Neptune and its largest moon, Triton.

Characteristics of the planet Neptune:

Period of revolution around the Sun: 164 years 292 days.

Diameter at the equator: 50538 km.

Rotation period (rotation around an axis): 16 hours 7 minutes.

Surface temperature: -220 degrees (average).

Atmosphere: Mainly hydrogen and helium.

Number of satellites: 8.

Main satellites: Triton.

How many planets are there in the solar system: 8 or 9?

Earlier, for many years astronomers recognized the presence of 9 planets, that is, Pluto was also considered a planet, like the others already known to everyone. But in the 21st century, scientists were able to prove that it is not a planet at all, which means that there are 8 planets in the solar system.

Now, if you are asked how many planets are in the solar system, answer boldly - 8 planets in our system. This has been officially recognized since 2006. When arranging the planets of the solar system in order from the sun, use the ready-made picture. Do you think that maybe Pluto should not have been removed from the list of planets and that this is scientific prejudice?

How many planets are there in the solar system: video, watch for free

What is the solar system in which we live? The answer will be as follows: this is our central star, the Sun and all the cosmic bodies that revolve around it. These are large and small planets, as well as their satellites, comets, asteroids, gases and cosmic dust.

The name of the solar system was given by the name of its star. In a broad sense, “solar” often means any star system.

How did the solar system originate?

According to scientists, the Solar System was formed from a giant interstellar cloud of dust and gases due to gravitational collapse in a separate part of it. As a result, a protostar was formed in the center, which then turned into a star - the Sun, and a protoplanetary disk of enormous size, from which all the components of the Solar system listed above were subsequently formed. The process, scientists believe, began about 4.6 billion years ago. This hypothesis was called the nebular hypothesis. Thanks to Emmanuel Swedenborg, Immanuel Kant and Pierre-Simon Laplace, who proposed it back in the 18th century, it eventually became generally accepted, but over the course of many decades it was refined, new data was introduced into it taking into account knowledge modern sciences. Thus, it is assumed that due to the increase and intensification of collisions of particles with each other, the temperature of the object increased, and after it reached several thousand kelvins, the protostar acquired a glow. When the temperature reached millions of kelvins, a thermonuclear fusion reaction began in the center of the future Sun - the conversion of hydrogen into helium. It turned into a star.

The sun and its features

Scientists classify our star as a yellow dwarf (G2V) according to the spectral classification. This is the closest star to us, its light reaches the surface of the planet in just 8.31 seconds. From Earth, the radiation appears to have a yellow tint, although in reality it is almost white.

The main components of our luminary are helium and hydrogen. In addition, thanks to spectral analysis, it was discovered that the Sun contains iron, neon, chromium, calcium, carbon, magnesium, sulfur, silicon, and nitrogen. Thanks to the thermonuclear reaction continuously occurring in its depths, all life on Earth receives the necessary energy. Sunlight- an integral component of photosynthesis, which results in the formation of oxygen. Without sun rays it would be impossible, therefore, an atmosphere suitable for the protein form of life would not be able to form.

Mercury

This is the closest planet to our star. Together with Earth, Venus and Mars, it belongs to the so-called terrestrial planets. Mercury got its name because high speed movement, which, according to myths, distinguished the fleet-footed ancient god. The Mercury year is 88 days.

The planet is small, its radius is only 2439.7, and it is smaller in size than some of the large satellites of the giant planets, Ganymede and Titan. However, unlike them, Mercury is quite heavy (3.3 x 10 23 kg), and its density is only slightly behind that of Earth. This is due to the presence of a heavy dense core of iron on the planet.

There is no change of seasons on the planet. Its desert surface resembles the Moon. It is also covered with craters, but is even less suitable for life. Thus, on the day side of Mercury the temperature reaches +510 °C, and on the night side -210 °C. These are the sharpest changes in the entire solar system. The atmosphere of the planet is very thin and rarefied.

Venus

This planet, named after the ancient Greek goddess of love, is more similar to Earth than others in the solar system. physical parameters- weight, density, size, volume. For a long time they were considered twin planets, but over time it became clear that their differences were enormous. So, Venus has no satellites at all. Its atmosphere consists of carbon dioxide almost 98%, and the pressure on the surface of the planet exceeds that on Earth by 92 times! Clouds above the surface of the planet, consisting of sulfuric acid vapor, never dissipate, and the temperature here reaches +434 ° C. On the planet they go acid rain, thunderstorms are raging. There is high volcanic activity here. Life, as we understand it, cannot exist on Venus; moreover, descending spacecraft cannot survive in such an atmosphere for long.

This planet is clearly visible in the night sky. This is the third brightest object for an earthly observer; it shines with white light and is brighter than all the stars. The distance to the Sun is 108 million km. It revolves around the Sun in 224 Earth days, and around its own axis in 243.

Earth and Mars

This last planets the so-called terrestrial group, whose representatives are characterized by the presence of a solid surface. Their structure includes a core, mantle and crust (only Mercury does not have it).

Mars has a mass equal to 10% of the mass of the Earth, which, in turn, is 5.9726 10 24 kg. Its diameter is 6780 km, almost half that of our planet. Mars is the seventh largest planet in the solar system. Unlike the Earth, 71% of whose surface is covered by oceans, Mars is entirely dry land. Water is preserved beneath the planet's surface as a massive ice sheet. Its surface has a reddish tint due to the high content of iron oxide in the form of maghemite.

The atmosphere of Mars is very rarefied, and the pressure on the surface of the planet is 160 times less than what we are used to. On the surface of the planet there are impact craters, volcanoes, depressions, deserts and valleys, and at the poles - ice caps, just like on Earth.

Martian days are slightly longer than Earth ones, and the year is 668.6 days. Unlike Earth, which has one moon, the planet has two satellites irregular shape- Phobos and Deimos. Both of them, like the Moon to the Earth, are constantly turned to Mars with the same side. Phobos is gradually approaching the surface of its planet, moving in a spiral, and will likely fall onto it over time or break into pieces. Deimos, on the contrary, is gradually moving away from Mars and may leave its orbit in the distant future.

Between the orbits of Mars and the next planet, Jupiter, there is an asteroid belt consisting of small celestial bodies.

Jupiter and Saturn

Which planet is the largest? There are four gas giants in the solar system: Jupiter, Saturn, Uranus and Neptune. Jupiter has the largest size. Its atmosphere, like that of the Sun, consists predominantly of hydrogen. The fifth planet, named after the thunder god, has an average radius of 69,911 km and a mass 318 times that of Earth. The planet's magnetic field is 12 times stronger than the Earth's. Its surface is hidden under opaque clouds. So far, scientists are finding it difficult to say with certainty what processes can occur under this dense veil. It is assumed that the surface of Jupiter is boiling hydrogen ocean. Astronomers consider this planet a “failed star” due to some similarity in their parameters.

Jupiter has 39 satellites, 4 of which - Io, Europa, Ganymede and Callisto - were discovered by Galileo.

Saturn is slightly smaller than Jupiter, it is the second largest among the planets. This is the sixth, next planet, also consisting of hydrogen with admixtures of helium, a small amount of ammonia, methane, and water. Hurricanes rage here, the speed of which can reach 1800 km/h! Saturn's magnetic field is not as powerful as Jupiter's, but stronger than Earth's. Both Jupiter and Saturn are somewhat flattened at the poles due to rotation. Saturn is 95 times heavier than earth, but its density is less than that of water. This is the least dense celestial body in our system.

A year on Saturn lasts 29.4 Earth years, a day is 10 hours 42 minutes. (Jupiter has a year of 11.86 Earth years, a day of 9 hours 56 minutes). It has a system of rings consisting of solid particles of various sizes. Presumably, these may be the remains of a destroyed satellite of the planet. In total, Saturn has 62 satellites.

Uranus and Neptune - the last planets

The seventh planet of the solar system is Uranus. It is 2.9 billion km away from the Sun. Uranus is the third largest among the planets of the Solar System (average radius - 25,362 km) and fourth in mass (14.6 times greater than the Earth's). A year here lasts 84 Earth years, a day lasts 17.5 hours. In the atmosphere of this planet, in addition to hydrogen and helium, methane occupies a significant volume. Therefore, for an earthly observer, Uranus has a soft blue color.

Uranus is the most cold planet Solar system. The temperature of its atmosphere is unique: -224 °C. Why is Uranus more low temperature than on planets that are further from the Sun, scientists do not know.

This planet has 27 satellites. Uranus has thin, flat rings.

Neptune, the eighth planet from the Sun, ranks fourth in size (average radius - 24,622 km) and third in mass (17 Earth's). For a gas giant it is relatively small (only four times more than Earth). Its atmosphere is also mainly composed of hydrogen, helium and methane. Gas clouds in its upper layers move at a record speed, the highest in the solar system - 2000 km/h! Some scientists believe that under the surface of the planet, under a layer of frozen gases and water, hidden, in turn, by the atmosphere, a solid rocky core may be hiding.

These two planets are similar in composition, which is why they are sometimes classified as a separate category - ice giants.

Minor planets

Minor planets are celestial bodies that also move around the Sun in their own orbits, but differ from other planets in their small sizes. Previously, only asteroids were classified as such, but more recently, namely since 2006, they also include Pluto, which was previously included in the list of planets of the Solar System and was the last, tenth on it. This is due to changes in terminology. Thus, minor planets now include not only asteroids, but also dwarf planets - Eris, Ceres, Makemake. They were named plutoids after Pluto. The orbits of all known dwarf planets are located beyond the orbit of Neptune, in the so-called Kuiper belt, which is much wider and more massive than the asteroid belt. Although their nature, as scientists believe, is the same: it is “unused” material left after the formation of the Solar system. Some scientists have suggested that the asteroid belt is the debris of the ninth planet, Phaeton, which died as a result of a global catastrophe.

What is known about Pluto is that it consists mainly of ice and rocks. rocks. The main component of its ice sheet is nitrogen. Its poles are covered with eternal snow.

This is the order of the planets of the solar system, according to modern ideas.

Parade of planets. Types of parades

This is a very interesting phenomenon for those interested in astronomy. It is customary to call a parade of planets such a position in the solar system when some of them, continuously moving in their orbits, for a short time occupy a certain position for an earthly observer, as if lining up along one line.

The visible parade of planets in astronomy is the special position of the five brightest planets of the solar system for people seeing them from Earth - Mercury, Venus, Mars, as well as two giants - Jupiter and Saturn. At this time, the distance between them is relatively small and they are clearly visible in a small sector of the sky.

There are two types of parades. A large form is called when five celestial bodies line up in one line. Small - when there are only four of them. These phenomena may be visible or invisible from different areas globe. At the same time, a large parade occurs quite rarely - once every few decades. The small one can be observed once every few years, and the so-called mini-parade, in which only three planets participate, almost every year.

Interesting facts about our planetary system

Venus, the only one of all the major planets in the Solar System, rotates around its axis in the direction opposite to its rotation around the Sun.

The most high mountain on the major planets of the solar system - Olympus (21.2 km, diameter - 540 km), an extinct volcano on Mars. Not long ago, on the largest asteroid of our star system, Vesta, a peak was discovered that was somewhat superior in parameters to Olympus. Perhaps it is the highest in the solar system.

The four Galilean moons of Jupiter are the largest in the Solar System.

Besides Saturn, all gas giants, some asteroids, and Saturn's moon Rhea have rings.

Which star system is closest to us? The solar system is closest to star system triple star Alpha Centauri (4.36 light years). It is assumed that planets similar to Earth may exist in it.

About planets for kids

How to explain to children what the solar system is? Her model will help here, which you can make together with the kids. To create planets, you can use plasticine or ready-made plastic (rubber) balls, as shown below. At the same time, it is necessary to maintain the relationship between the sizes of the “planets” so that the model of the solar system really helps to form in children the correct ideas about space.

You will also need toothpicks to hold our celestial bodies, and as a background you can use a dark sheet of cardboard with small dots painted on it to imitate stars. With the help of such an interactive toy, it will be easier for children to understand what the solar system is.

The future of the solar system

The article described in detail what the Solar System is. Despite its apparent stability, our Sun, like everything in nature, evolves, but this process, by our standards, is very long. The supply of hydrogen fuel in its depths is huge, but not infinite. So, according to scientists’ hypotheses, it will end in 6.4 billion years. As it burns out, the solar core will become denser and hotter, and the outer shell of the star will become wider. The star's luminosity will also increase. It is assumed that in 3.5 billion years, because of this, the climate on Earth will be similar to Venus, and life on it in the usual sense for us will no longer be possible. There will be no water left at all, under the influence high temperatures it will disappear into outer space. Subsequently, according to scientists, the Earth will be absorbed by the Sun and dissolve in its depths.

The outlook is not very bright. However, progress does not stand still, and perhaps by that time new technologies will allow humanity to explore other planets, over which other suns shine. After all, scientists do not yet know how many “solar” systems there are in the world. There are probably countless of them, and among them it is quite possible to find one suitable for human habitation. Which “solar” system will become our new home is not so important. Human civilization will be preserved, and another page will begin in its history...

On March 13, 1781, English astronomer William Herschel discovered the seventh planet of the solar system - Uranus. And on March 13, 1930, American astronomer Clyde Tombaugh discovered the ninth planet of the solar system - Pluto. By the beginning of the 21st century, it was believed that the solar system included nine planets. However, in 2006, the International Astronomical Union decided to strip Pluto of this status.

There are already 60 known natural satellites of Saturn, most of which were discovered using spacecraft. Most of the satellites consist of rocks and ice. The largest satellite, Titan, discovered in 1655 by Christiaan Huygens, is larger than the planet Mercury. The diameter of Titan is about 5200 km. Titan orbits Saturn every 16 days. Titan is the only moon to have a very dense atmosphere, 1.5 times larger than Earth's, consisting primarily of 90% nitrogen, with moderate methane content.

The International Astronomical Union officially recognized Pluto as a planet in May 1930. At that moment, it was assumed that its mass was comparable to the mass of the Earth, but later it was found that Pluto’s mass is almost 500 times less than the Earth’s, even less than the mass of the Moon. Pluto's mass is 1.2 x 10.22 kg (0.22 Earth's mass). Pluto's average distance from the Sun is 39.44 AU. (5.9 to 10 to 12 degrees km), radius is about 1.65 thousand km. The period of revolution around the Sun is 248.6 years, the period of rotation around its axis is 6.4 days. Pluto's composition is believed to include rock and ice; the planet has subtle atmosphere, consisting of nitrogen, methane and carbon monoxide. Pluto has three moons: Charon, Hydra and Nix.

At the end of XX and beginning of XXI centuries, many objects have been discovered in the outer solar system. It has become obvious that Pluto is only one of the largest Kuiper Belt objects known to date. Moreover, at least one of the belt objects - Eris - is a larger body than Pluto and is 27% heavier. In this regard, the idea arose to no longer consider Pluto as a planet. August 24, 2006 at XXVI General Assembly The International Astronomical Union (IAU) has decided to henceforth call Pluto not a “planet”, but a “ dwarf planet".

At the conference, a new definition of a planet was developed, according to which planets are considered bodies that revolve around a star (and are not themselves a star), have a hydrostatically equilibrium shape and have “cleared” the area in the area of ​​their orbit from other, smaller objects. Dwarf planets will be considered objects that orbit a star, have a hydrostatically equilibrium shape, but have not “cleared” the nearby space and are not satellites. Planets and dwarf planets are two different classes objects of the solar system. All other objects orbiting the Sun that are not satellites will be called small bodies of the Solar System.

Thus, since 2006, there have been eight planets in the solar system: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune. The International Astronomical Union officially recognizes five dwarf planets: Ceres, Pluto, Haumea, Makemake, and Eris.

On June 11, 2008, the IAU announced the introduction of the concept of "plutoid". It was decided to call celestial bodies revolving around the Sun in an orbit whose radius is greater than the radius of Neptune’s orbit, and whose mass is sufficient to gravitational forces gave them an almost spherical shape, and which do not clear the space around their orbit (that is, many small objects revolve around them).

Since it is still difficult to determine the shape and thus the relationship to the class of dwarf planets for such distant objects as plutoids, scientists recommended temporarily classifying all objects whose absolute asteroid magnitude (brilliance from a distance of one astronomical unit) is brighter than +1 as plutoids. If it later turns out that an object classified as a plutoid is not a dwarf planet, it will be deprived of this status, although the assigned name will be retained. The dwarf planets Pluto and Eris were classified as plutoids. In July 2008, Makemake was included in this category. On September 17, 2008, Haumea was added to the list.

The material was prepared based on information open sources

> Planets

Explore everything planets of the solar system in order and study the names, new scientific facts And interesting features surrounding worlds with photos and videos.

The solar system is home to 8 planets: Mercury, Venus, Mars, Earth, Jupiter, Saturn, Uranus and Neptune. The first 4 belong to the inner solar system and are considered terrestrial planets. Jupiter and Saturn are the large planets of the solar system and representatives of the gas giants (huge and filled with hydrogen and helium), and Uranus and Neptune are ice giants (large and represented by heavier elements).

Previously, Pluto was considered the ninth planet, but since 2006 it has become a dwarf planet. This dwarf planet was first discovered by Clyde Tomb. It is now one of the largest objects in the Kuiper Belt, a collection of icy bodies on the outer edge of our system. Pluto lost its planetary status after the IAU (International Astronomical Union) revised the concept itself.

According to the IAU decision, a solar system planet is a body that performs an orbital passage around the Sun, endowed with sufficient mass to form into a sphere and clear the area around it of foreign objects. Pluto failed to meet the latter requirement, which is why it became a dwarf planet. Other similar objects include Ceres, Makemake, Haumea and Eris.

With a small atmosphere, harsh surface features and 5 moons, Pluto is considered the most complex dwarf planet and one of the most amazing planets in our Solar System.

But scientists have not given up hope of finding the mysterious Planet Nine, after they announced in 2016 a hypothetical object that exerts its gravity on bodies in the Kuiper Belt. According to its parameters, it is 10 times the mass of the Earth and 5000 times more massive than Pluto. Below is a list of planets in the solar system with photos, names, descriptions, detailed characteristics and interesting facts for children and adults.

Variety of planets

Astrophysicist Sergei Popov about gas and ice giants, double star systems and single planets:

Hot planetary coronas

Astronomer Valery Shematovich on the study of gaseous shells of planets, hot particles in the atmosphere and discoveries on Titan:

Planet	Diameter relative to the Earth	Mass, relative to Earth	Orbital radius, a. e.	Orbital period, Earth years	Day, relative to Earth	Density, kg/m³	Satellites
	0,382	0,06	0,38	0,241	58,6	5427	No
	0,949	0,82	0,72	0,615	243	5243	No
	1,0	1,0	1,0	1,0	1,0	5515	1
	0,53	0,11	1,52	1,88	1,03	3933	2
	0,074	0,000013	2,76	4,6	0,46	~2000	No
	11,2	318	5,20	11,86	0,414	1326	67
	9,41	95	9,54	29,46	0,426	687	62
	3,98	14,6	19,22	84,01	0,718	1270	27
	3,81	17,2	30,06	164,79	0,671	1638	14
	0,098	0,0017	39,2	248,09	6,3	2203	5
	0,032	0,00066	42,1	281,1	0,03	~1900	2
	0,033	0,00065	45,2	306,28	1,9	~1700	No
	0,1	0,0019	68,03	561,34	1,1	~2400	1

Terrestrial planets of the solar system

The first 4 planets from the Sun are called planets earth type because their surface is rocky. Pluto also has a solid surface layer (frozen), but it is classified as a dwarf planet.

Gas giant planets of the solar system

There are 4 gas giants living in the outer solar system, as they are quite huge and gaseous. But Uranus and Neptune are different, because in them more ice. That's why they are also called ice giants. However, all gas giants have one thing in common: they are all made of hydrogen and helium.

The IAU has put forward a definition of a planet:

• The object must be orbiting the Sun;
• Have sufficient mass to take the shape of a ball;
• Clear your orbital path of foreign objects;

Pluto could not meet the latter requirement, since it shares its orbital path with a huge number of Kuiper Belt bodies. But not everyone agreed with the definition. However, dwarf planets such as Eris, Haumea and Makemake appeared on the scene.

Ceres also lives between Mars and Jupiter. It was noticed in 1801 and considered a planet. Some still consider it the 10th planet in the solar system.

Dwarf planets of the solar system

Formation of planetary systems

Astronomer Dmitry Vibe about rocky planets and giant planets, the diversity of planetary systems and hot Jupiters:

Planets of the Solar System in order

The following describes the characteristics of the 8 main planets of the Solar System in order from the Sun:

The first planet from the Sun is Mercury

Mercury is the first planet from the Sun. Rotates in an elliptical orbit at a distance of 46-70 million km from the Sun. It takes 88 days for one orbital flight, and 59 days for an axial flight. Due to its slow rotation, a day spans 176 days. The axial tilt is extremely small.

With a diameter of 4887 km, the first planet from the Sun reaches 5% of the Earth's mass. Surface gravity is 1/3 of Earth's. The planet is practically devoid of an atmospheric layer, so it is hot during the day and freezes at night. The temperature ranges between +430°C and -180°C.

There is a crater surface and an iron core. But its magnetic field is inferior to that of the earth. Initially, radar indicated the presence of water ice at the poles. The Messenger apparatus confirmed the assumptions and found deposits at the bottom of craters, which are always immersed in shadow.

The first planet from the Sun is located close to the star, so it can be seen before dawn and just after sunset.

• Title: Messenger of the gods in the Roman pantheon.
• Diameter: 4878 km.
• Orbit: 88 days.
• Length of day: 58.6 days.

The second planet from the Sun is Venus

Venus is the second planet from the Sun. Travels in an almost circular orbit at a distance of 108 million km. It comes closest to Earth and can reduce the distance to 40 million km.

The orbital path takes 225 days, and the axial rotation (clockwise) lasts 243 days. A day spans 117 Earth days. The axial tilt is 3 degrees.

In diameter (12,100 km), the second planet from the Sun is almost identical to the Earth’s and reaches 80% of the Earth’s mass. The gravity indicator is 90% of Earth's. The planet has a dense atmospheric layer, where the pressure is 90 times higher than Earth's. The atmosphere is filled with carbon dioxide with thick sulfur clouds, creating a powerful greenhouse effect. It is because of this that the surface warms up by 460°C (the hottest planet in the system).

The surface of the second planet from the Sun is hidden from direct observation, but scientists managed to create a map using radar. Covered by large volcanic plains with two huge continents, mountains and valleys. There are also impact craters. A weak magnetic field is observed.

• Discovery: The ancients saw without the use of tools.
• Name: Roman goddess responsible for love and beauty.
• Diameter: 12104 km.
• Orbit: 225 days.
• Day length: 241 days.

The third planet from the Sun is Earth

Earth is the third planet from the Sun. It is the largest and densest of the inner planets. The orbital path is 150 million km away from the Sun. It has a single companion and developed life.

The orbital flyby takes 365.25 days, and the axial rotation takes 23 hours, 56 minutes and 4 seconds. The length of the day is 24 hours. The axial tilt is 23.4 degrees, and the diameter is 12742 km.

The third planet from the Sun was formed 4.54 billion years ago and for most of its existence the Moon was nearby. It is believed that the satellite appeared after a huge object crashed into the Earth and tore material into orbit. It is the Moon that stabilizes the Earth's axial tilt and acts as the source of the formation of tides.

The satellite's diameter covers 3,747 km (27% of Earth's) and is located at a distance of 362,000-405,000 km. Experiencing planetary gravitational influence, due to which it slowed down its axial rotation and fell into a gravitational block (therefore, one side is turned towards the Earth).

The planet is protected from stellar radiation by a powerful magnetic field formed by the active core (molten iron).

• Diameter: 12760 km.
• Orbit: 365.24 days.
• Day length: 23 hours and 56 minutes.

The fourth planet from the Sun is Mars

Mars is the fourth planet from the Sun. The Red Planet moves along an eccentric orbital path - 230 million km. One flight around the Sun takes 686 days, and an axial revolution takes 24 hours and 37 minutes. It is located at an inclination of 25.1 degrees, and the day lasts 24 hours and 39 minutes. Its inclination resembles that of the Earth, which is why it has seasons.

The diameter of the fourth planet from the Sun (6792 km) is half that of Earth, and its mass reaches 1/10 of Earth’s. Gravity indicator – 37%.

Mars is deprived of protection as magnetic field, so the original atmosphere was destroyed by the solar wind. The devices recorded the outflow of atoms into space. As a result, the pressure reaches 1% of the earth's, and the thin atmospheric layer is represented by 95% carbon dioxide.

The fourth planet from the Sun is extremely frosty, with temperatures dropping to -87°C in winter and rising to -5°C in summer. This is a dusty place with giant storms that can cover the entire surface.

• Discovery: The ancients saw without the use of tools.
• Name: Roman god of war.
• Diameter: 6787 km.
• Orbit: 687 days.
• Day length: 24 hours and 37 minutes.

The fifth planet from the Sun is Jupiter

Jupiter is the fifth planet from the Sun. Moreover, in front of you largest planet in a system that is 2.5 times more massive than all the planets and covers 1/1000 of the solar mass.

It is distant from the Sun by 780 million km and spends 12 years on its orbital path. Filled with hydrogen (75%) and helium (24%) and may have a rocky core immersed in liquid metallic hydrogen with a diameter of 110,000 km. The total planetary diameter is 142984 km.

IN top layer The atmosphere contains 50-kilometer clouds consisting of ammonia crystals. They are in stripes moving on different speeds and latitudes. The Great Red Spot, a large-scale storm, seems remarkable.

The fifth planet from the Sun spends 10 hours on its axial rotation. This is a rapid speed, which means the equatorial diameter is 9000 km larger than the polar one.

• Discovery: The ancients saw without the use of tools.
• Name: main god in the Roman pantheon.
• Diameter: 139822 km.
• Orbit: 11.9 years.
• Length of day: 9.8 hours.

The sixth planet from the Sun is Saturn

Saturn is the sixth planet from the Sun. Saturn is in 2nd position in terms of scale in the system, exceeding the Earth's radius by 9 times (57,000 km) and 95 times more massive.

It is distant from the Sun by 1400 million km and spends 29 years on its orbital flight. Filled with hydrogen (96%) and helium (3%). May have a rocky core in liquid metallic hydrogen with a diameter of 56,000 km. The upper layers are represented by liquid water, hydrogen, ammonium hydrosulfide and helium.

The core is heated to 11,700°C and produces more heat than the planet receives from the Sun. The higher we rise, the lower the degree drops. At the top, the temperature is maintained at -180°C and 0°C at a depth of 350 km.

The cloud layers of the sixth planet from the Sun resemble the picture of Jupiter, but they are fainter and wider. There is also the Great White Spot, a brief periodic storm. It spends 10 hours and 39 minutes on an axial rotation, but it is difficult to give an exact figure, since there are no fixed surface features.

• Discovery: The ancients saw without the use of tools.
• Name: god of the economy in the Roman pantheon.
• Diameter: 120500 km.
• Orbit: 29.5 days.
• Length of day: 10.5 hours.

The seventh planet from the Sun is Uranus

Uranus is the seventh planet from the Sun. Uranus is a representative of the ice giants and is the 3rd largest in the system. Its diameter (50,000 km) is 4 times greater than that of Earth and 14 times more massive.

It is distant by 2900 million km and spends 84 years on its orbital path. What’s surprising is that the planet’s axial tilt (97 degrees) literally rotates on its side.

It is believed that there is a small rocky core around which a mantle of water, ammonia and methane is concentrated. This is followed by a hydrogen, helium and methane atmosphere. The seventh planet from the Sun also stands out in that it does not radiate more internal heat, so the temperature mark drops to -224°C (the coldest planet).

• Discovery: In 1781, noticed by William Herschel.
• Name: personification of the sky.
• Diameter: 51120 km.
• Orbit: 84 years.
• Duration of the day: 18 hours.

Neptune is the eighth planet from the Sun. Neptune has been considered the official last planet in the solar system since 2006. The diameter is 49,000 km, and its massiveness is 17 times greater than that of Earth.

It is distant by 4500 million km and spends 165 years on an orbital flight. Due to its remoteness, the planet receives only 1% of solar radiation (compared to Earth). The axial tilt is 28 degrees, and the rotation takes 16 hours.

The meteorology of the eighth planet from the Sun is more pronounced than that of Uranus, so powerful storm actions in the form of dark spots. The wind accelerates to 600 m/s, and the temperature drops to -220°C. The core heats up to 5200°C.

• Discovery: 1846
• Name: Roman god of water.
• Diameter: 49530 km.
• Orbit: 165 years.
• Duration of the day: 19 hours.

This is a small world, smaller in size than Earth's satellite. The orbit intersects with Neptune in 1979-1999. it could be considered the 8th planet in terms of distance from the Sun. Pluto will remain beyond Neptune's orbit for more than two hundred years. The orbital path is inclined to the system plane at 17.1 degrees. Frosty World visited New Horizons in 2015.

• Discovery: 1930 - Clyde Tombaugh.
• Name: Roman god of the underworld.
• Diameter: 2301 km.
• Orbit: 248 years.
• Length of day: 6.4 days.

Planet Nine is a hypothetical object living in external system. Its gravity should explain the behavior of trans-Neptunian objects.

Planets of the solar system - a little history

Previously, a planet was considered to be any body that orbits a star, glows with light reflected from it, and is larger than an asteroid.

Back in Ancient Greece mentioned seven luminous bodies that move across the sky against the background of fixed stars. These cosmic bodies were: the Sun, Mercury, Venus, Moon, Mars, Jupiter and Saturn. The earth was not included in this list, since the ancient Greeks considered the earth to be the center of all things.

And only in the 16th century Nicolaus Copernicus in his scientific work entitled "On Appeal" celestial spheres“came to the conclusion that it is not the Earth, but the Sun that should be at the center of the planetary system. Therefore, the Sun and Moon were removed from the list, and the Earth was added to it. And after the advent of telescopes, Uranus and Neptune were added, in 1781 and 1846, respectively.
Pluto was considered the last discovered planet in the solar system from 1930 until recently.

And now, almost 400 years after Galileo Galilei created the world's first telescope for observing stars, astronomers have come to the following definition of a planet.

Planet is a celestial body that must satisfy four conditions:
the body must revolve around a star (for example, around the Sun);
the body must have sufficient gravity to have a spherical or close to it shape;
the body should not have other large bodies near its orbit;
the body should not be a star.

In turn, the polar star is a cosmic body that emits light and is a powerful source of energy. This is explained, firstly, by the thermonuclear reactions occurring in it, and secondly, by the processes of gravitational compression, as a result of which a huge amount of energy is released.

Planets of the Solar System today

solar system is a planetary system that consists of a central star - the Sun - and all the natural space objects orbiting around it.

So, today the solar system consists of eight planets: four inner, so-called terrestrial planets, and four outer planets, called gas giants.
The terrestrial planets include Earth, Mercury, Venus and Mars. All of them consist mainly of silicates and metals.

The outer planets are Jupiter, Saturn, Uranus and Neptune. Gas giants are composed mainly of hydrogen and helium.

The sizes of the planets of the Solar System vary both within groups and between groups. Thus, gas giants are much larger and more massive than terrestrial planets.
Mercury is closest to the Sun, then as it moves away: Venus, Earth, Mars, Jupiter, Saturn, Uranus and Neptune.

It would be wrong to consider the characteristics of the planets of the Solar System without paying attention to its main component: the Sun itself. Therefore, we will start with it.

The sun planet is the star that gave rise to all life in the solar system. Planets, dwarf planets and their satellites, asteroids, comets, meteorites and cosmic dust revolve around it.

The Sun arose about 5 billion years ago, is a spherical, hot plasma ball and has a mass that is more than 300 thousand times the mass of the Earth. The surface temperature is more than 5000 degrees Kelvin, and the core temperature is more than 13 million K.

The sun is one of the largest and most bright stars in our galaxy, which is called galaxy Milky Way. The Sun is located at a distance of about 26 thousand light years from the center of the Galaxy and makes a full revolution around it in about 230-250 million years! For comparison, the Earth makes a full revolution around the Sun in 1 year.

Mercury planet

Mercury is the smallest planet in the system, which is closest to the Sun. Mercury has no satellites.

The surface of the planet is covered with craters that arose about 3.5 billion years ago due to massive bombings meteorites. The diameter of the craters can range from a few meters to more than 1000 km.

The atmosphere of Mercury is very thin, consists mainly of helium and is inflated by the solar wind. Since the planet is located very close to the Sun and does not have an atmosphere that would retain heat at night, the surface temperature ranges from -180 to +440 degrees Celsius.

By earthly standards, Mercury completes a full revolution around the Sun in 88 days. But a Mercury day is equal to 176 Earth days.

Venus planet

Venus is the second planet closest to the Sun in the solar system. Venus is only slightly smaller in size than Earth, which is why it is sometimes called “Earth’s sister.” Has no satellites.

The atmosphere consists of carbon dioxide with admixtures of nitrogen and oxygen. The air pressure on the planet is more than 90 atmospheres, which is 35 times more than on Earth.

Carbon dioxide and the resulting greenhouse effect, dense atmosphere, and proximity to the Sun allow Venus to bear the title of “hottest planet.” The temperature on its surface can reach 460°C.

Venus is one of the brightest objects in the earth's sky after the Sun and Moon.

Planet Earth

Earth is the only planet known today in the Universe on which there is life. The earth has largest sizes, mass and density among the so-called inner planets of the Solar System.

The age of the Earth is about 4.5 billion years, and life appeared on the planet about 3.5 billion years ago. Moon - natural satellite, the largest of the satellites of the terrestrial planets.

The Earth's atmosphere is fundamentally different from the atmospheres of other planets due to the presence of life. Most of the atmosphere consists of nitrogen, but also includes oxygen, argon, carbon dioxide and water vapor. Ozone layer and the Earth's magnetic field, in turn, weaken the life-threatening influence of solar and cosmic radiation.

Due to the carbon dioxide contained in the atmosphere, the greenhouse effect also occurs on Earth. It is not as pronounced as on Venus, but without it the air temperature would be about 40°C lower. Without an atmosphere, temperature fluctuations would be very significant: according to scientists, from -100°C at night to +160°C during the day.

About 71% of the Earth's surface is occupied by the world's oceans, the remaining 29% are continents and islands.

Mars planet

Mars is the seventh largest planet in the solar system. "Red Planet", as it is also called due to the presence large quantity iron oxide in the soil. Mars has two satellites: Deimos and Phobos.
The atmosphere of Mars is very thin, and the distance to the Sun is almost one and a half times greater than that of the Earth. That's why average annual temperature on the planet is -60°C, and temperature changes in some places reach 40 degrees during the day.

Distinctive features of the surface of Mars are impact craters and volcanoes, valleys and deserts, and polar ice caps similar to those on Earth. The highest mountain in the solar system is located on Mars: the extinct volcano Olympus, whose height is 27 km! And also the largest canyon: Valles Marineris, whose depth reaches 11 km and length – 4500 km

Jupiter planet

Jupiter is the most big planet Solar system. It is 318 times heavier than the Earth, and almost 2.5 times more massive than all the planets in our system combined. In its composition, Jupiter resembles the Sun - it consists mainly of helium and hydrogen - and emits a huge amount of heat equal to 4 * 1017 W. However, in order to become a star like the Sun, Jupiter must be 70-80 times heavier.

Jupiter has as many as 63 satellites, of which it makes sense to list only the largest - Callisto, Ganymede, Io and Europa. Ganymede is the most large satellite in the solar system, it is larger than even Mercury.

Due to certain processes in the inner atmosphere of Jupiter, many vortex structures appear in its outer atmosphere, for example, stripes of clouds in brown-red shades, as well as the Great Red Spot, a giant storm known since the 17th century.

Saturn planet

Saturn is the second largest planet in the solar system. Business card Saturn is, of course, its ring system, which consists mainly of icy particles different sizes(from tenths of a millimeter to several meters), as well as rocks and dust.

Saturn has 62 moons, the largest of which are Titan and Enceladus.
In its composition, Saturn resembles Jupiter, but in density it is inferior even to ordinary water.
The planet's outer atmosphere appears calm and uniform, which is explained by a very dense layer of fog. However, wind speeds in some places can reach 1800 km/h.

Uranus planet

Uranus is the first planet discovered by telescope, and the only planet in the Solar System that orbits the Sun on its side.
Uranus has 27 moons, which are named after Shakespearean heroes. The largest of them are Oberon, Titania and Umbriel.

The composition of the planet differs from gas giants in the presence of a large number of high-temperature modifications of ice. Therefore, along with Neptune, scientists have classified Uranus as an “ice giant.” And if Venus has the title of “hottest planet” in the solar system, then Uranus is the coldest planet with minimum temperature about -224°C.

Neptune planet

Neptune is the most distant planet in the solar system from the center. The story of its discovery is interesting: before observing the planet through a telescope, scientists used mathematical calculations to calculate its position in the sky. This happened after the discovery of inexplicable changes in the movement of Uranus in its own orbit.

Today, 13 satellites of Neptune are known to science. The largest of them, Triton, is the only satellite that moves in the direction opposite to the rotation of the planet. The fastest winds in the solar system also blow against the rotation of the planet: their speed reaches 2200 km/h.

Neptune's composition is very similar to Uranus, therefore it is the second “ice giant”. However, like Jupiter and Saturn, Neptune has internal source heat and emits 2.5 times more energy than it receives from the Sun.
The blue color of the planet is given by traces of methane in the outer layers of the atmosphere.

Conclusion
Pluto, unfortunately, did not manage to get into our parade of planets in the solar system. But there is absolutely no need to worry about this, because all the planets remain in their places, despite changes in scientific views and concepts.

So, we answered the question how many planets are there in the solar system. There are only 8 .