RU2486115C2 - Method of earth protection against massive asteroids - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to space engineering and cab be used for protection of the Earth against asteroids. Space rockets with onboard guidance means and nuclear warhead are launched toward asteroid and drawn as closed as possible thereto to be exploded thereat to change speed and direction of asteroid flight from the Earth. Space rocket launch time interval are selected subject to asteroid weight decrease caused by explosion, rocket speed and direction, and expected time of approach of the next space rocket.

EFFECT: prevention of collision between Earth and asteroid.

2 cl

Description

The way to protect the Earth from massive asteroids relates to astronautics and provides a deviation of the orbits of the asteroids from the direction of their flight towards the Earth and a partial decrease in the mass of these asteroids or their destruction.

There is a known method of defeating strategic missiles on the opposite flight path, in which anti-missiles are used containing on-board guidance and nuclear warheads, which ensures the reliability and speed of the process of destroying missiles flying at high speed (see "Polytechnical Dictionary". / Edited by A. Y. Ishlinsky, ed. "Soviet Encyclopedia", 1980, p. 417).

The disadvantage of this method of defeating objects flying at high speed, with respect to the purpose of this technical solution, is the impossibility of changing the direction of movement or destruction of asteroids on the path of their flight towards the Earth due to their large mass and significant distance from the Earth, inaccessible to anti-aircraft missiles and ground means of their use and management.

The present invention eliminates the possibility of an asteroid colliding with the Earth by changing the direction of its orbit while reducing the mass of the asteroid or its destruction.

The following is a confirmation of the feasibility of the invention.

It is known that when a nuclear charge explodes, a powerful blast wave arises, capable of destroying and scattering massive objects, which is confirmed by numerous publications and showing in the media, for example, about the explosions of American atomic bombs in the Japanese cities of Hiroshima and Nagasaki.

The above technical result from the application of this invention is achieved by using space rockets aimed at the asteroid, which, by controlling from the Earth and using on-board guidance means, bring the asteroid as close as possible and detonate the nuclear charge of the warhead. They act on the asteroid by an explosive shock wave and impulse pressure of gases formed during the explosion of a nuclear charge, including their kinetic energy from the oncoming motion of a space rocket and an asteroid. The power of the impact of a nuclear explosion on an asteroid is very high, since about 50% of the explosion energy is spent on the formation of a shock wave (see the Polytechnic Dictionary, p. 548, above). At the same time, the asteroid’s flight speed and direction are changed and at the same time the part of the asteroid is destroyed by the blast wave, its surface facing the explosion is melted under the influence of the high temperature of the nuclear charge explosion, and the part of the mass of the asteroid is scattered into the surrounding space in the form of fragments formed by the explosion and molten substance from its surface. This reduces the mass of the asteroid.

In order to increase the reliability of protecting the Earth from an asteroid, several space rockets are launched towards it sequentially with time intervals. In this case, a possible decrease in the mass of the asteroid from the previous explosion, a change in the speed and direction of its motion, distance from the Earth and the expected time of the approach of another space rocket with it are taken into account.

From numerous freely available and widely distributed sources of information, it is known that modern nuclear charges in terms of power and destructive force are many times higher than the above American atomic bombs. In this regard, the possibility of deviation of the flight direction and partial or complete destruction of the asteroid flying into the moan of the Earth under the influence of nuclear explosions is not in doubt. This has been convincingly proved in practice by numerous nuclear explosions during nuclear test tests in our country and in the USA with wide coverage of the results in the media.

Achieving the objective of the invention is ensured by the enormous temperature (up to 10 ⁸ K) and pressure (up to 10 ¹² atm) in the center of a nuclear explosion (see. "Physical Encyclopedic Dictionary". / Ed. By A. M. Prokhorov, - ed. "Soviet Encyclopedia" , 1984, pp. 917/3, article “Nuclear explosion”.

The possibility of falling to Earth fragments from an asteroid during these nuclear explosions is unlikely, since these fragments under the influence of powerful explosions receive large accelerations to the side of the orbit of the asteroid’s flight.

Claims (2)

1. A method of protecting the Earth from massive asteroids, in which space rockets directed at them are used, which are equipped with onboard guidance tools and nuclear warheads, characterized in that a space rocket is brought together with the help of onboard guidance and control from the Earth side as close as possible to asteroid and detonate the nuclear charge of the warhead, act on the asteroid by the shock wave and impulse pressure of the gases formed during the explosion of the warhead’s charge, including their kinetic energy from the rocket movement of a space rocket and an asteroid, while changing the speed and direction of the asteroid’s flight and simultaneously destroying part of the asteroid with a blast wave, its surface facing the explosion melts under the influence of the high temperature of the explosion of the nuclear charge, and part of the mass of the asteroid is scattered into the surrounding space in the form under the influence of an explosion of fragments and molten matter from its surface and at the same time reduce the mass of the asteroid. 2. The method according to claim 1, characterized in that several space rockets are launched towards the asteroid sequentially at time intervals, while taking into account the decrease in the mass of the asteroid from the previous explosion, the altered speed and direction of its flight, the distance from Earth and the expected time of approach to him next successively launched space rockets.