During #sex one day we thought to ourselves; we do this alot, I wonder if we can get paid for it... Turns out you can. So we started #camming as a #couple!
charlienova: The Crescent Nebula (Aka; NGC 6888,Β Caldwell 27,Β Sharpless 105) About 5000 lightyears away in the Cygnus constellation, this Emission Nebula is a Shell blown off of the Wolf-Rayet Star WR 136 (HD 192163) at around 3.8 millions MPH... https://t.co/r0MfGU94Gc
charlienova: About 5000 lightyears away in the Cygnus constellation, this Emission Nebula is a Shell blown off of the Wolf-Rayet Star WR 136 (HD 192163) at around 3.8 millions MPH when it became aΒ Red SupergiantΒ approximately a quarter of a... https://t.co/YAsOAgdVDf
quantum-particle-physics: Quantum Chromodynamics Atomic Matter is of everyday significance to us and is formally known as Baryonic Matter, which is reducible to composite particles that are made up of quarks and bound together by the Strong... https://t.co/nqJg7FMW3m
charlienova: Bipolar Outflow Generally characterized as a Bipolar Nebula, these kind of astronomical outflows are commonly associated with protostars and giant stars in the asymptomatic branch on the Hertzbrung-Russel Diagram. The central star of... https://t.co/1JYWN4gSGL
charliessolarsystem: The Sun Although its misnomer is a βyellow dwarfβ, it is in fact white. It appears yellow, orange and red (depending on its position) when viewed through our atmosphere due to Rayleigh Scattering. As a Main Sequence G2V-type... https://t.co/Z5QYEUL8cR
charliessolarsystem: Over half of the mass of the entire asteroid belt is due to Four asteroids: Ceres, Vesta, Pallas and Hygiea. Due to the composition of Vesta, the Fourth asteroid, it is the brightest asteroid and the only asteroid visible... https://t.co/oEJAgjRmmp
charliessolarsystem: Planets and Planetoids have Four major component layers: Core, Mantle, Crust and Atmosphere. In reference to the Chondritic Model, the Core of all planets are suspected to be composed of Four abundant elements: 85% Iron, 5%... https://t.co/KWwtTlOwY3
charlienova: Nova A Classical Nova is a Cataclysmic Variable Star which lasts weeks to a month and is caused by a White Dwarf in a close binary system orbiting within a certain distance of a main sequence star, subgiant or red giant star. The... https://t.co/QFYfK9XOu6
πΉ charlienova: Supernova When a massive star reaches the final stage of Stellar Evolution, a titanic explosion releases at up to a tenth the speed of light, most, if not all, of the matter composing the star in a Supernova transient. Just like... https://t.co/2ruUXiqyV5
charlienova: Hypernova Aka a Super-Luminous Supernova, is a Stellar Explosion 10 or more times more luminous than a Supernova. After releasing many Gamma Ray Bursts (GRB), the massive core collapse results in either a neutron star, or, in some... https://t.co/kiEmsdnjJ5
π· charlienova: Kilonova Also known as a Macronova, or an r-process Supernova, occurs by the merging of a compact binary system of Neutron Stars and/or Black Holes. Their peak brightness reaches 1000 times more than a Classical Nova while... https://t.co/WGFWQfvEUP
π· charlienova: V838 Monocerotis This is one of the most unique nebulae in the galaxy due to the fact that it may not even be caused by a nova. Located approximately in the direction of the Galactic Anti-center and off from the Milky Wayβs... https://t.co/z0FYHgUwJN
charlienova: Herbig-Haro Objects Herbig-Haro Objects are nebulas most often found in severals within a parsec of newborn stars, which form them by ejecting partially ionized gas in narrow jets that collide with molecular clouds at hundreds of... https://t.co/WTE7qh9FS1
charlienova: Bipolar Outflow Generally characterized as a Bipolar Nebula, these kind of astronomical outflows are commonly associated with protostars and giant stars in the asymptomatic branch on the Hertzbrung-Russel Diagram. https://t.co/I4BzjYRE3i