James Webb telescope
James Webb telescope has been assembled, and the importance of this system is that it would be used along with observations to test the technology like computer programs and controlling systems what would be used in the telescopes, what is planned to send to the Kuiper belt for more difficult missions. The telescope, what operates in the Kuiper belt would have so minimum errors because of thermal radiation, that it will reach extreme accuracy also in infrared areas.
If the James Webb type infrared telescope would operate in Kuiper belt, that would give very much information about the other solar systems. The system would have minimum errors, which are caused because of the warming of the telescope, and the sunlight in that area would be so low, that it would not disturb telescope.
Every people who have seen the images of James Webb telescope have noticed, that telescope is the structure what is above the other structure of telescope. The James Webb telescopes structure allows turning the telescope without using fuel whenever the telescope is turning. That thing makes many benefits with James Webb. If we are thinking about elder solutions like Hubble, we must realize, that every time the telescope changed the target, it must burn the fuel.
And that thing is not a problem if space telescope will orbiting the Earth, because the telescope can refill with fuel. But if the telescope would send outside from the solar system, the use of fuel is an extremely important thing if we are thinking about the lifetime of the telescope, what would travel to Kuiper belt for getting data about the other solar systems. And the distance from the sun is so big to that telescope because the sun will disturb the telescope what is near the sun.
That means the telescope must send to the edge of the solar system because that denies the sun radiation disturbing the metering, what is made by using the telescope. So if we would want to create very high definition images from other solar systems, we must take a telescope very far away from the Earth. James Webb itself would not go to Kuiper belt, but its successors would go to that area. And in James Webb is a plan to test technology, what is planned to use in following missions.
The thing is that in the Kuipers belt the temperature is extremely low, which means that the high definition observations in infrared frequency are also possible because the telescopes own temperature doesn't disturb the observations in the infrared area, and also the separately installed telescope doesn't get disturbing radiation from the power source of the telescope. The parabolic form of the telescope could also benefit for high power communication.
If the communication antenna would installed in the back of the optical telescope that allows it to find Earth if the data communication has been cut because the antenna has been turned to the wrong direction. The antenna must have to command algorithm that it turns itself to the Sun, and then then it can find the marks, what the radio telescopes would send to it.
https://www.jwst.nasa.gov/
James Webb telescope has been assembled, and the importance of this system is that it would be used along with observations to test the technology like computer programs and controlling systems what would be used in the telescopes, what is planned to send to the Kuiper belt for more difficult missions. The telescope, what operates in the Kuiper belt would have so minimum errors because of thermal radiation, that it will reach extreme accuracy also in infrared areas.
If the James Webb type infrared telescope would operate in Kuiper belt, that would give very much information about the other solar systems. The system would have minimum errors, which are caused because of the warming of the telescope, and the sunlight in that area would be so low, that it would not disturb telescope.
Every people who have seen the images of James Webb telescope have noticed, that telescope is the structure what is above the other structure of telescope. The James Webb telescopes structure allows turning the telescope without using fuel whenever the telescope is turning. That thing makes many benefits with James Webb. If we are thinking about elder solutions like Hubble, we must realize, that every time the telescope changed the target, it must burn the fuel.
And that thing is not a problem if space telescope will orbiting the Earth, because the telescope can refill with fuel. But if the telescope would send outside from the solar system, the use of fuel is an extremely important thing if we are thinking about the lifetime of the telescope, what would travel to Kuiper belt for getting data about the other solar systems. And the distance from the sun is so big to that telescope because the sun will disturb the telescope what is near the sun.
That means the telescope must send to the edge of the solar system because that denies the sun radiation disturbing the metering, what is made by using the telescope. So if we would want to create very high definition images from other solar systems, we must take a telescope very far away from the Earth. James Webb itself would not go to Kuiper belt, but its successors would go to that area. And in James Webb is a plan to test technology, what is planned to use in following missions.
The thing is that in the Kuipers belt the temperature is extremely low, which means that the high definition observations in infrared frequency are also possible because the telescopes own temperature doesn't disturb the observations in the infrared area, and also the separately installed telescope doesn't get disturbing radiation from the power source of the telescope. The parabolic form of the telescope could also benefit for high power communication.
If the communication antenna would installed in the back of the optical telescope that allows it to find Earth if the data communication has been cut because the antenna has been turned to the wrong direction. The antenna must have to command algorithm that it turns itself to the Sun, and then then it can find the marks, what the radio telescopes would send to it.
https://www.jwst.nasa.gov/
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