Add to ORKGSatellites in low Earth orbits are subject to drag forces from the Earth’s atmosphere, these forces deorbit the satellites over time. The effect of global warming on the rate at which a satellite will deorbit is investigated in this paper. It is found that, while a simplified model would predict a faster deorbit, this is not the case due to interactions at the molecular level
Albeit in the past great theoretical and experimental efforts were made in proposing and searching f...
Thermospheric density impacts satellite position and lifetime through atmospheric drag. More accurat...
A major issue in the process of predicting the future position of satellites in low earth orbit (LEO...
Satellites in low Earth orbits are subject to drag forces from the Earth’s atmosphere, these forces ...
Orbital data from the year 1967 onwards has allowed for historical observations of the thermosphere,...
Whilst it is well known that an increase in the density of the greenhouse gases CO2, CH4and others r...
Predicting the positions of satellites in Low Earth Orbit (LEO) requires a comprehensive understandi...
For satellites which are operated in low-Earth orbits (LEO), gravitational forces due to the non-uni...
Atmospheric density has an important influence in predicting the positions of satellites in low Eart...
Abstract: In this article we present a simple but elegant numerical calculation to study the motion ...
Signi cant discoveries about gas–surface interactions that havebeen made in 90 years of laboratory ...
peer reviewedThe accuracy of global atmospheric models used to predict the middle/lower thermosphere...
The accuracy of global atmospheric models used to predict the middle/lower thermosphere characteris...
The accuracy of global atmospheric models used to predict the middle/lower thermosphere characterist...
Increasing carbon dioxide causes cooling in the upper atmosphere and a secular decrease in atmospher...
Albeit in the past great theoretical and experimental efforts were made in proposing and searching f...
Thermospheric density impacts satellite position and lifetime through atmospheric drag. More accurat...
A major issue in the process of predicting the future position of satellites in low earth orbit (LEO...
Satellites in low Earth orbits are subject to drag forces from the Earth’s atmosphere, these forces ...
Orbital data from the year 1967 onwards has allowed for historical observations of the thermosphere,...
Whilst it is well known that an increase in the density of the greenhouse gases CO2, CH4and others r...
Predicting the positions of satellites in Low Earth Orbit (LEO) requires a comprehensive understandi...
For satellites which are operated in low-Earth orbits (LEO), gravitational forces due to the non-uni...
Atmospheric density has an important influence in predicting the positions of satellites in low Eart...
Abstract: In this article we present a simple but elegant numerical calculation to study the motion ...
Signi cant discoveries about gas–surface interactions that havebeen made in 90 years of laboratory ...
peer reviewedThe accuracy of global atmospheric models used to predict the middle/lower thermosphere...
The accuracy of global atmospheric models used to predict the middle/lower thermosphere characteris...
The accuracy of global atmospheric models used to predict the middle/lower thermosphere characterist...
Increasing carbon dioxide causes cooling in the upper atmosphere and a secular decrease in atmospher...
Albeit in the past great theoretical and experimental efforts were made in proposing and searching f...
Thermospheric density impacts satellite position and lifetime through atmospheric drag. More accurat...
A major issue in the process of predicting the future position of satellites in low earth orbit (LEO...