A space elevator is an alternative way of space transport. Tooth substances will be in the form of a geostationary orbit and will be in an anchor position and from there to the outer space will be long. Wire designs are made of substances, this design philosophy will help a vehicle to move from Earth’s surface to space. Anchor earth-based cable, close to the equator connected to one end of it and the other end connected to the anchor material in the geostationary orbit. It is attached to one end of it and the other is attached to the anchor material in the brown geostationary orbit.

The second anchoring point in the geostationary orbit should be beyond that. It is a cable set from the equator to space. The forces of gravity force and centrifugal force work in a competitive way so that the cable can be strengthened in the situation of high stress. The force of gravity, which is strong for low and centrifugal force, which is strong for the upper end, which is located near geologic orbits, goes to hold the cable or tether strong enough.

With these presences of the tether or competitive forces, climbers can easily reach the space and then return to space easily with the help of different mechanical methods. Due to the presence of such competitive forces, Tether varies with the Earth and is still associated with the space cable due to the centrifugal force making the stillest movement in the space.

In 5000 years ago, we learned about the concept of making stairs for space in the later part of the Hindu mythology scripts as well as in the nineteenth century we learned about the novel writing about it.

To create a space lift on the earth, the material should be used to be strong and light, so that without any problem in the competitive forces, acting should be done again and again and the earth and space should be constantly working completely different transient The need of structures is going in that.

Probably the carbon nanotube is considered to be the best choice for making tethering material, which binds from Earth to space. Some people make their stubbornness to use the diamond nanotechnology thread and suggest to stay straight, while climbers move towards the space from Earth.

So we can move towards other planets and sub-planets in the construction of such a space lift. Even it has been seen that building lift towards Mars is not difficult and it can easily be permanent from the Earth. First of all, the idea of using a geostationary satellite on the other end of the node was prepared for presenting this space lift.

This creative and relative idea is taking place, and over time, we see the presence of such competitive forces that both the Earth and space can create enough saturation of the satellite to move in the right position.

The principle of using a counterweight to keep the cable in a stable posture and then making it still the situation by using weight in the structure of the Earth, it creates the most realistic and overall earth environment. At the ground level, the size of the cable can be thin and the size of the cable in the geographically-stationary class becomes widespread so that the tension can stagnate with stability.

The types of materials used in these space lift are used extensively in research to use it and different suggestions have been given about it. It has been found that it has been estimated that the strength of this tethering cable should have been in two different nodes on the surface of the earth.

After the design and development of carbon nanotubes, the concept of creating a space lift comes for a reality, tethering substance used as a composite material for carbon nanotubes. This cross section should be in the shape of the shape, which will occasionally face the insane attacks of asteroids.

Because of the presence of the cross-section of the ribbon made from the composite material of carbon nanotube substances, they provide wide segments for climbers using rollers, they can reach the other end of the tether of space travel. This is not an easy concept, people are still trying to make an ideal place elevator. There are many difficulties and many obstacles for this because one should look at two opposite ideas and how to achieve these ideas.

As more and more science develops, we are struggling to find important perceptual elements and ideas to find out what it does to reach this place. When constructing similar ideas, we proceed with backward time and again every thought that goes to marginalization before our arrival and becomes absolutely zero with time.

The first problem of this concept is that there is no known material at this time which has still been found, which is strong enough to maintain the stress of space, as a force of competitive force, a competitive attraction with two different parts, Attack by Asteroids and early on.
Possible to send people with payloads in space through such a large cable within the capsule, none of these solves them, because the form and structure of the cable are important in making decisions about traveling in space.

This space structure should have been more than two times the Earth’s perimeter, it should mean that it should be about 100,000 kilometres long and its own size and factors should be to maintain its weight. There is no such substance in these same qualities in the earth. Still, a group of scientists still believe that this can be constructed and this day can see the light of one day.

There may be a possibility of making such a tethering material made from diamond nanotubes or nano threads. So far these are some derogatory ideas but it takes a hard time to convert them into a real reality, the more we think about space and reach its elements, we go back to the ward with such ideas.

First, we need to build strong materials that can be capable of stopping such power which could be stronger than imagination. When we send and receive payloads and humans from the forms of security, then the primary importance is that the debris floating in the space can hurt the movement of the space elevator.

There is no known at any time at any time, possibly due to asteroids a crash can occur and it can prove to be extremely destructive. Even if the space lift has been built and then the movement of capsules with humans in space becomes also difficult with the presence of tethering materials like ribbons.

It is being talked of using solar-powered capsule vehicles operating under this tethering wire to control speed and straightforward movement. This could be an option for users in a day, but it seems a challenge for scientists to create it with light metals, but still, it is not far from reality

The concept of a floating anchor is well-crafted and is close to the concept of reality. Due to the time, many satellites have been out of order and remain in the geo-stable orbit because its end is part of the derbies. Binding a part of the anchor in these dead satellites can prove sufficient powers for the concept of building space travel.

In addition, the material used for tethering should be formed to spread radiation, meteorite damage and thermal fluctuation. Some people say that the anchor at the end of the earth should be one of the floating people near the equator, where there will be less chance of storm, cyclone and earthquake.

The most important task is to find and build a place which can rise above the irregularities of space and this is the main challenge. Because of the time, we can discover more and stronger materials so far we have seen that carbon nanotubes are 13 times stronger than those of other existing materials. It should not be enough and it is news that the Chinese have made a strong material with carbon nanotubes.

Because of the time, we could invent such material that the presence of diamond thread could be a better option and requires more research. We could have waited for some time and we have never known about this any such innovation of such material that can face such surface and external space stress due to space radiation The concepts that are emerging and still have to wait for us at that time.

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