Why do astronauts generally move laterally in outer space?

Astronauts in outer space generally cannot decide how they move because they are in a vacuum.

Because they are not under their control in outer space, astronauts use their own oxygen to move forward through the reaction force generated by the jet during a spacewalk.

Because the elderly in rural areas have hardly made any contributions, and their consumption levels are different, this should be the difference.

Because they are in outer space, in space, astronauts can only float with it, and they have no autonomy.

Because in space, astronauts can only float with it, and they have no autonomy.

Astronauts move in space, and basically nothing happens like the one you described, and the movement of objects in a weightless and medium-free environment obeys one of the most important laws of physics: the conservation of momentum.

Lateral movement is more conducive to action, after all, there is no gravity in outer space.

Because they are in outer space, their bodies are basically not under their control.

This is because the environment in outer space is very different from that on Earth.

Why do astronauts need to be carried around when they get out of the capsule?

I think it should be improved, I seem to see their actions and their steps.

"The astronaut is completely weightless after entering the predetermined orbit with the spacecraft, and his "space" walk is not the same concept as walking on the ground. Walking on the ground is carried forward by the friction given by the ground by the feet, while "walking" in space is the "walking" of the astronaut by acting on the spacecraft, so as to obtain a reaction force to "walk", not necessarily by the feet. ”

An astronaut, or astronaut, or astronaut, or astronaut, is a person who has made a career out of space flight or has flown in space. The criteria for determining space flight are not fully harmonized. In the United States, people who travel more than 80 kilometers (50 miles) above sea level are called astronauts.

The International Federation of Aeronautics (FAI) defines space flight as more than 100 km.

As of April 18, 2004, a total of 440 people had spent a total of 27,082 crew-days in space, as defined by the United States, and 98 crew-days were shared by walking in space.

As defined by the International Aviation Federation, only 434 people are eligible. The astronauts who went into space came from at least 32 countries. In Hong Kong and Southeast Asia, astronauts are also known as astronauts.

Development history: As of 2013, only three countries in the world, the former Soviet Union, Russia, the United States, and China, have the ability to launch manned space missions. Astronauts from other countries need to cooperate with all three countries to complete manned space missions. Since the first human flight in 1961, astronauts from 38 countries have flown into space.

This is because when the spacecraft goes into space, all the objects and people on the spacecraft are in a state of weightlessness, and when the astronaut leaves the spacecraft, he can fly in the same direction with the airplane due to inertia. In this way, astronauts will also be able to "walk" in space.

Because in space, the astronaut has lost calcium in his body, so the astronaut is unable to stand. For many people, the past two years are undoubtedly a very helpless and painful two years, because of the impact of the new crown epidemic, resulting in many uncontrollable phenomena frequently appearing, recently, many astronauts who have returned from space to earth, why can't they stand, this news has attracted the attention of many friends, and even made many people feel a little surprised, after learning about this kind of land news, many friends have made guesses, in addition to the above explanations, is there any other explanation?

The problem of muscle atrophy is well known, because of the rapid development of science, many countries have also understood that it is necessary to establish some sports equipment on the International Space Station, because in the zero-gravity environment, exercise can only reduce the degree of muscle atrophy to a certain extent, but, in fact, to a large extent, this will not help the body's nutritional recovery, so calcium supplementation drugs are also irreparable, so after the astronauts return to the earth, they need to return to the earth and gradually and slowly recover. <>

The rules of the universe An astronaut of NASA, he personally spent 197 days in space, as the first step to recover from weightlessness after returning to Earth, he must learn to walk again, so we all know that there is actually no gravity in outer space, because they work in space, they have always been in a state of weightlessness, in addition, the living environment in space is different from that on Earth, and there are many things that they cannot accept after returning to Earth. <>

The instinctive reaction can only be said that these astronauts are great, they have undergone rigorous training, but because it is the instinctive reaction of the body, it is not something they can control, so they come back from space, the body cannot quickly adapt to the living environment of the earth, the action is not harmonious, it is difficult to imagine what it is like, so, they can only sit in the chair, first of all, to adapt to the environment. <>

Because the astronauts wear very heavy space chamber vertical suits, coupled with the lack of gravity in the space ruler, it is difficult to adapt to the time when there is gravity on the earth. So unable to stand.

Because I am not adapted, I have been in space for a long time, so I am used to the situation of vacuum, and suddenly there is the gravitational pull of the earth, which will be very uncomfortable.

Because astronauts are in a state of weightlessness in space, when he and the photographers return to Earth, they will be squeezed by gravity and pressure, which will have a certain impact on their bodies and internal organs, so there is no way to stand.

Summary. Hello dear, I have helped you find the result: astronauts in space are turned around by using anti-gravity power technology, it is through their feet to provide power to cross the orbit, they can take anti-gravity instructions in the capsule in order to change the direction of the ship with ease.

We can see them pushing the capsule with their feet to carry the astronaut from one place to another, and they can also use radioactive fibers to drag the astronaut to a specific position for the purpose of turning around. In addition, astronauts in space can also use power mounts and vehicles to change the steering of the capsule and the astronauts themselves. The power bracket consists of a table rotation, a slide system, and an energy supply device that can be used to help the astronaut change direction and adjust the angle according to the distance.

Vehicles are also a common solution for astronauts to turn around, and usually, those who are able to fly the vehicle can use the vehicle in the space capsule to turn around, while not being limited by the space limitations.

Hello dear, I have helped you find the results: Taizheng has not counted the astronauts in the air by using anti-gravity power technology to turn around, it is through the observation of limbs over their feet to provide the power to cross the orbit to lift the head, they can take anti-gravity commands in the space capsule, so as to change the direction of the ship with ease. We can see them pushing the capsule with their feet to carry the astronaut from one place to another, and they can also use radioactive fibers to drag the astronaut to a specific position for the purpose of turning around.

In addition, astronauts in space can also use power mounts and vehicles to change the steering of the capsule and the astronauts themselves. The power bracket consists of a table rotation, a slide system, and an energy supply device that can be used to help the astronaut change direction and adjust the angle according to the distance. Vehicles are also a common solution for astronauts to turn around, and usually, those who are able to fly the vehicle can use the vehicle in the space capsule to turn around, while not being limited by the space limitations.

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On February 7, 1984, two U.S. astronauts stepped out of the space shuttle without wearing seat belts, "walked" (actually floated) in space for a period of time, and safely entered the space shuttle Challenger. One might ask: Why weren't astronauts dumped by the shuttle?

This is because, although they left the shuttle for the time being, they did not leave the orbit of the shuttle. We've all experienced that any suspended object will fall to the ground if there is nothing to support it.

This is due to the attractiveness of the earth. However, it was later calculated that if the velocity of the thrown object could be above the kilometer per second (the first cosmic velocity), the gravitational pull of the earth could only make the object circle around the earth, and unless the speed of the object was reduced to less than kilometers per second, it would not be possible to return to the ground. The two astronauts were sent into space by a multi-stage rocket along with the space shuttle and gained the first cosmic velocity.

Although, under the impetus of the rocket backpack, they left the space shuttle for a distance, but they still maintained their original speed, in other words, they maintained the same speed as the space shuttle, and flew synchronously, so they would not be thrown off by the space shuttle. For this reason, people call them "human earth satellites". The success of the astronauts' "walk" in space has created conditions for the repair of malfunctioning satellites that are in orbit, as well as for the creation of permanent space orbital stations in the future.