Path: csiph.com!fu-berlin.de!uni-berlin.de!individual.net!not-for-mail From: Thomas Heger Newsgroups: alt.fan.rush-limbaugh,sci.physics,sci.physics.relativity Subject: Re: destination mars Date: Sun, 10 Nov 2024 08:13:51 +0100 Lines: 60 Message-ID: References: <672CDD18.366D@ix.netcom.com> Mime-Version: 1.0 Content-Type: text/plain; charset=UTF-8; format=flowed Content-Transfer-Encoding: 8bit X-Trace: individual.net 4Gvx0EUzcA0fWrK0D2nlwAzRi0SL0D38HFxpg1UbpaIQU32Lu3 Cancel-Lock: sha1:m1v3pwk2fEr7zgp7BXtnqZqarfY= sha256:nD+1+MwWdZbeqnUYQ3tFfIkgA86gyv7dZqlrTa3vngM= User-Agent: Mozilla Thunderbird Content-Language: de-DE In-Reply-To: <672CDD18.366D@ix.netcom.com> Xref: csiph.com alt.fan.rush-limbaugh:2862926 sci.physics:890019 sci.physics.relativity:658791 Am Donnerstag000007, 07.11.2024 um 16:30 schrieb The Starmaker: > kazu wrote: >> >> finally. > > Mars is a dead planet. > > Mars has been a dead planet since it's very beginnings. > > Mars is Red and Red is Dead! > > All Red planets are Dead planets. > > Red is Dead. All wrong, because the read color stems from Iron-oxide and that would need water in liquid form to build. So Mars should have had an atmosphere and lots of water in a very remote past. The water and the atmosphere are long gone, but the red color remained. Now: how could this happen? Well, I'm actually a proponent of 'Growing Earth' theory and that is also valid for other celestial bodies than the Earth. This theory assumes, that all stars, planets and moons grow over long periods of time. This growth is caused by local structures in the local realm of spacetime. This causes matter to form, where already matter is. This applies to stars as well as for planets. In the course of planetary growth the mass of the planet grows, hence also the diameter of its orbit around the central star of its solar system. The would beginn ín a region, which is too hot for water and ends up in a region too cold. Now in the middle is kind of 'habitable zone', where liquid water does exist. That water created iron oxide and that is, what made Mars red. Then the orbit expands and the planet reaches a reagion, where all water is frozen. Then the water gets into a light gas form by sublimation and is finally blown away and left to the darkness of the universe. What remains is red colour. ... TH