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Method for measuring distance between star and earth

A measurement method and distance technology, applied in the field of measurement of planetary distance, can solve problems that are not the actual distance of the planet

Inactive Publication Date: 2009-12-02
廖云开
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Problems solved by technology

[0005] It has been proved by experiments that the stars are all planets in the big family of the solar system. They are swirled by the solar wind together with the earth in the vortex of the solar system, and they walk synchronously on their respective guide rails. They are always at the same angle when seen on the earth, and they can be seen all year round. See, so the straight line measured by the parallax method is just the same straight line measured at different times, and the calculated distance is not the actual distance of the planet

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Embodiment Construction

[0017] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0018] A method of measuring the distance of a planet, including a fixed obstacle in the sky, through two viewing points on the ground on the same north-south pointing line, and viewing from both sides of the obstacle and the star to be measured in a straight line, the two The straight lines intersect at the star to be measured, and the angle formed is the angle of view difference of the star to be measured; taking the radius of the earth as the base, it is calculated that the angular difference of 1 second = 360*60*60 / 6.2832*6350 km = 1.309.778.457 km ≈8.732 astronomical units, and finally divide the angular difference of 1 second by the viewing angle difference to get the distance from the measured star to the center of the earth. The obstacle is a horizontal bar with a circular cross section. The straight line formed by one viewing point and the star...

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Abstract

The invention relates to a method for measuring distance between a star and the earth, which comprises a barrier fixed above the air; through two observing points of the ground positioned on the same meridian directional line, the observation is carried out respectively from the alignment of two sides of the barrier and a measured star, two lines are crossed in the measured star; the formed angle is the visual angle difference of the measured star; the radius of the earth is used as radix to figure out that the 1 second angle difference is equal to 360*60*60 / 6,2832*6350 kilometers, equal to 1,309,778,457 kilometers which is approximate to 8.732 astronomical units; and finally the 1 second angle difference is divided by the visual angle difference to obtain the distance between the measured star and the earth center. The method can immediately and accurately calculate the actual distance between the star and the earth that night, registers the distance as data essential for aerospace exploration and avoids the trouble of star distinguishment after six months. The method has a principle of utilizing the blocking of the barrier above the air on sight to form the visual angle difference between the observing points and using the radius of the earth as the radix to calculate the 1 second angle difference and then calculate the distance between the star and the earth center.

Description

technical field [0001] The invention relates to a method for measuring planetary distances. Background technique [0002] The size of the universe has been a research topic in astronomy for hundreds of years. Scientists use a variety of methods to measure it, such as the Cepheid cycle-light relationship distance measurement method, spectrometry method, and triangular parallax method. However, there is no reference object in the sky as a basis. Only God knows the accuracy of the measured distances. The results of each measurement are different. If the distance of each star cannot be accurately recorded, there will be no basis for space exploration. Accurate measurement of planets has become a worldwide problem in astronomy. [0003] Now astronomy uses the method of triangular parallax to measure the distance of stars, that is, to measure and record the angle of the stars first, and then to measure and record the angle of the stars for the second time after 6 months, using the...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01C3/10
Inventor 廖云开
Owner 廖云开
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