Voyager has flown out of the solar system, so why is the data coming back so different?

In the seventies of the last century, human science and technology developed by leaps and bounds, and remarkable progress was made in the field of space exploration. In particular, the probes represented by the "Voyager" series successfully flew out of the Earth and began a long journey of space exploration.

Of course, all mankind has high hopes for this, and has made two ** records engraved with the message of human civilization, hoping to convey the friendly greetings of mankind to the unknown world.

In fact, Voyager 2 is not an alternative to Voyager 1, and scientists have repeatedly explained that they carried out different missions and just flew out of the solar system during the time period.

Scientists are still keeping a close eye on the Voyager series of probes that are already moving away from us, and as the farthest man-made probes from us, they themselves carry a lot of human expectations.

On this basis, Voyager 1 has already reached the Obote Cloud at the edge of the solar system a few years ago, which is known as the legendary interstellar media region, and Voyager 2 followed suit in 2018. Scientists believe that a large part of the Voyager series has failed due to long-term exposure to solar radiation and cosmic rays, so the data they send back is invaluable.

However, by analyzing the information transmitted back by the "Voyager" series in recent years, scientists have found that there are big differences between the two, in addition to analyzing some differences in their detection targets, some people believe that the "Voyager II" is likely to have an accident.

Among the related speculations, the claim that Voyager 2 was hijacked by an alien civilization has attracted a lot of attention, because it sends back a lot of information that even scientists can't decipher. At the same time, there are also those who believe that Voyager 2 sent back a special signal in large part because of the severe loss of parts, and that there were no aliens at all, let alone that they hijacked human probes.

Relatively speaking, the probes have been able to operate flexibly in space for only a few decades, and the Voyager series has far exceeded our expectations, and while this is largely a cause for good, people still can't afford to have too many illusions.

The end of the Voyager series is predestined, and we can't prevent the unexpected, but scientists can learn from the lessons and provide more ideas for the development of new detectors. With the continuous development of science and technology, one day new detectors will break their records, and human civilization will rise to a new stage as a result.

Personally, I think it's because travelers collect data from different places, and the universe is actually a very magical place, and what travelers collect is just the tip of the iceberg.

There is no official explanation at this time. Some speculate that Voyager 2 was hijacked by an alien civilization, while others believe that Voyager 2 sent back a special signal in large part due to severe wear and tear.

Because there are many different factors in space, and the data that comes back changes every moment.

Because Voyager 1 and Voyager 2 have different missions, and because they are in very different directions after leaving the solar system, the data will also be different.

From God's point of view, the solar system as a whole is flat. The Earth's orbit around the Sun is known as the ecliptic plane, and the orbits of the other seven planets around the Sun are very close to the ecliptic plane. Of the eight planets, only Pluto stands out from the crowd in that its orbital plane is tilted more than 17 degrees from the ecliptic.

Other planets are smaller. Not only the solar system, but the larger galaxy as a whole has a flat structure. With a diameter of 200,000 light-years and a center thickness of 10,000 light-years, the Milky Way is located on a spiral arm that revolves around the Milky Way at a distance of 10,000 light-years from the center of the Milky Way.

The solar system is flat. Why didn't the Voyager fly directly into the ecliptic? Therefore, people often ask:

Why don't humans launch probes perpendicular to the ecliptic plane, so that they can fly out of the solar system quickly? For example, Voyager 1 and Sister 2. There are three issues that this question may have overlooked, and we will explain them one by one.

The diameter of the solar systemThe diameter of the solar system is also increasing as human space exploration deepens. Second, we recognize the existence of the solar wind and believe that the range of action of the solar wind is the diameter of the solar system. The latest view is that the diameter of the solar system should be within the range of the sun's gravitational pull, but in a narrow sense, gravity is a long-range force that can theoretically be infinite.

The concept here is the range of an object under the action of gravity. For example, the Oort cloud that surrounds the solar system is considered home to long-period comets, which are concentrated at this point due to the gravitational pull of the solar system. The Oort cloud is about two light-years in diameter, so the diameter of the solar system is two light-years, and it doesn't matter the orbital planes of the eight planets, so even if you fly perpendicular to the ecliptic, you still need to travel one light-year.

The scientific mission of the probe costs money every launch of space exploration. Launching rockets is not a string of monkeys in the sky that you put in the Spring Festival. You can't fly vertically just for fun.

For example, the Voyager probe was designed to explore the outer gas planets of the solar system: Jupiter, Saturn, Uranus, Neptune and their moons. If Voyager goes directly into the ecliptic, the planets and their moons cannot be detected, so what's the point of sending a probe?

Because the diameter of the solar system belongs to the gravitational range of the sun and is in balance with each other, Voyager will not fly vertically out of the solar system.

This is because the gravitational pull of the Sun is uniform, so it does not fly vertically out of the solar system when flying. It's a scientific principle.

Because there is gravity in the universe, gravity will keep all the planets in balance and will not let Voyager fly out of the solar system.

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<> Voyager can move after leaving the solar system. It comes to the third cosmic velocity and disadvantages. According to calculations, spaceships departing from the Earth can fly out of the solar system by inertia as long as their initial velocity accelerates to kilometers and seconds (relative to the Earth), which is the third cosmic velocity.

In different locations in the solar system, the gravitational pull of the sun is different. I hope I'm helpful to you, and I wish you a happy life!