The interaction of a small celestial body passing through the atmosphere of a planet is considered. Equations of aerodynamic deceleration of the body and condition of its fragmentation are obtained. It is shown that the fragmentation is a multistep process with steps separated in space and time. The model developed allows one to estimate the number of steps in fragmentation of the body, the number of fragments, their dimensions, parameters of motion, coordinates, and energy release into the atmosphere. The model is illustrated using the examples of interaction of a small celestial body and Comet Schoemaker-Levy 9 with the Earth's and Jupiter's atmospheres, respectively
Several pairs of planetary satellites may have been involved, during the history of the Solar System...
The Earth is surrounded by inoperative objects generated from past and current space missions. Becau...
Abstract:- The idea of the present paper is to study the swing-by maneuver between one of the planet...
The interaction of a small celestial body passing through the atmosphere of a planet is considered. ...
Abstract. It is known, from observational data recorded from airbursts, that small asteroids breakup...
The current work explores the interactions between asteroid fragments and the associated flow topolo...
The dynamic fragmentation of meteoroids during their flight in the atmosphere is described. The exam...
To model the interaction with the atmosphere of fragments of a disrupted asteroid, which move indepe...
The atmospheres of bodies in the Solar system display a great degree of diversity in their mass and ...
Impact phenomena shaped our solar system. From the accretion of the planetesimals 4.6 billion years ...
Meteoroids that enter the earth’s atmosphere and lighten up due to the collision with the air partic...
It is known, from observational data recorded from airbursts, that small asteroids breakup at dynami...
As the debris population increases, the probability of collisions in space grows. Even a collision i...
The consequences of the fragmentation of an Earth-threatening asteroid due to an attempted deflectio...
Everyday thousands of meteoroids enter the Earth's atmosphere. The vast majority burn up harmlessly ...
Several pairs of planetary satellites may have been involved, during the history of the Solar System...
The Earth is surrounded by inoperative objects generated from past and current space missions. Becau...
Abstract:- The idea of the present paper is to study the swing-by maneuver between one of the planet...
The interaction of a small celestial body passing through the atmosphere of a planet is considered. ...
Abstract. It is known, from observational data recorded from airbursts, that small asteroids breakup...
The current work explores the interactions between asteroid fragments and the associated flow topolo...
The dynamic fragmentation of meteoroids during their flight in the atmosphere is described. The exam...
To model the interaction with the atmosphere of fragments of a disrupted asteroid, which move indepe...
The atmospheres of bodies in the Solar system display a great degree of diversity in their mass and ...
Impact phenomena shaped our solar system. From the accretion of the planetesimals 4.6 billion years ...
Meteoroids that enter the earth’s atmosphere and lighten up due to the collision with the air partic...
It is known, from observational data recorded from airbursts, that small asteroids breakup at dynami...
As the debris population increases, the probability of collisions in space grows. Even a collision i...
The consequences of the fragmentation of an Earth-threatening asteroid due to an attempted deflectio...
Everyday thousands of meteoroids enter the Earth's atmosphere. The vast majority burn up harmlessly ...
Several pairs of planetary satellites may have been involved, during the history of the Solar System...
The Earth is surrounded by inoperative objects generated from past and current space missions. Becau...
Abstract:- The idea of the present paper is to study the swing-by maneuver between one of the planet...