I'm currently working on reaching a 0.1 release of my first space simulator program. ... Any two objects fall at the same rate on the Moon because there is a vacuum and no drag and only gravity acting on the objects.

I'll also compare sea-level to Mt. The atmosphere of Titan is the layer of gases surrounding Titan, the largest moon of Saturn.It is the only thick atmosphere of a natural satellite in the Solar System.Titan's lower atmosphere is primarily composed of nitrogen (94.2%), methane (5.65%), and hydrogen (0.099%). So how low can you go? I know atmospheric pressure, atmospheric composition (and hence molar mass) and temperature at the surface of the hypothetical planet. How to Calculate Atmospheric Drag? However I have a problem with determining lift and drag coefficients. Extracting and producing useful products from the raw materials of the Moon would relieve us from the need to drag everything required in space from the bottom of Earth’s deep gravity well, significantly altering the consequences of the rocket equation more in our favor. The effects of atmospheric drag force on the satellite orbit at altitude 500 km are shown in fig(4) and fig(5). According to these studies, the Earth grew up in a gaseous solar nebula and, consequently, the sphere of its gravitational influence (i.e., the Hill sphere of the Earth) was filled by a gas forming a dense primordial atmosphere of the Earth. Again, I'm forced to assume a pretty much upward launch.
Moon has an atmosphere but it is very light and lacks in gases. Atmospheric drag complicates launches, but not much because of its Delta v value. The NASA site says this coefficients are dependent on viscosity and compressibility of air, the form of the aircraft and angle of attack. Fig(4) shows th e altitude decrease until re-entry to the dense We propose a new scenario of the lunar origin, which is a natural extension of planetary formation processes studied so far by us in Kyoto. One of the trickier problems that Im trying to solve is the modelling of atmospheric drag on any given object (usually a rocket of some sort), but …
Space bombshell: China takes huge step towards human Moon landing ... should make an uncontrolled re-entry on Sunday due to atmospheric drag. Next, the "hover" term. But you can get pretty low orbits. Our nearest planetary neighbor, the Moon is close, useful, and interesting. On the Moon, the acceleration due to gravity is 1.6 m/s 2 and there is no atmospheric drag. Aerobraking is a spaceflight maneuver that reduces the high point of an elliptical orbit by flying the vehicle through the atmosphere at the low point of the orbit ().The resulting drag slows the spacecraft.Aerobraking is used when a spacecraft requires a low orbit after arriving at a body with an atmosphere, and it requires less fuel than does the direct use of a rocket engine During Apollo 14, Alan Shepherd hit a golf ball on the Moon. This represents the gravity drag. The constant vertical velocity is called the terminal velocity . Such an atmosphere of moon is due it's low gravity which (1/6th) the gravity of our Earth. If he hit the ball at an angle of 20 Not as low as 10 meters, no, because the surface of the Moon varies by much more than that. The Earth’s atmosphere is a total drag, especially if you’re trying to orbit our planet.