Yes, an M-class planet can survive in a nebula, especially if it orbits a small star. The planet's ability to maintain its atmosphere and conditions for habitability would depend on factors such as the density and composition of the nebula, the intensity of radiation from the star, and the planet's distance from the star. If conditions are favorable, the nebula might even provide some protection from cosmic radiation, allowing the planet to thrive.
The stages of the Nebular theory are: 1. Nebula formation - a giant molecular cloud collapses under its own gravity. 2. Disk formation - the nebula flattens into a spinning disk due to conservation of angular momentum. 3. Planetesimal formation - small particles in the disk collide and stick together to form planetesimals. 4. Planet formation - these planetesimals continue to collide and merge to form planets.
Mars is the rusty planet
Planets> Pluto, Mercury Mars Venus, Earth, Neptune, Uranus, Saturn, Jupiter Stars> Sun, Sirius, Pollux, Arcturus, Aldebaren, Rigel, Pistol Star, Betelguese, Antares, V354 Cephei, VV Cephei A, VY Canis Majoris There are nebulas and galaxies. Nebulas> Homunculus Nebula, Sting Ray Nebula, Cat's Eye Nebula, Hourglass Nebula, Blinking Nebula, Ring Nebula, Boomerang Nebula, Horsehead Nebula, Bubble Nebula, Cone Nebula, Pillars Of Creation, Crab Nebula, Orion Nebula, Eagle Nebula, Great Nebula Of Carina, Rossete Nebula, Lagoon Nebula, Barnard's Loop, Tarentula Nebula Galaxies> Canis Major Dwarf Galaxy, Sagittarius Dwarf Galaxy, Small Magellanic Cloud, Large Magellanic Cloud, Sombrero Galaxy, Trianglum Galaxy, Milky Way Galaxy, Andromeda Galaxy, Cartwheel Galaxy, Pinwheel Galaxy, Whirlpool Galaxy, Tadpole Galaxy, NGC 4889, IC 1101, I don't really know the names of these> Abell 2029, Local Group, Virgo Cluster, Virgo Supercluster, Eridanus Supervoid, Pisces-Cetus, Supercluster Complex Diameter Of The Universe> At Least 150 Billion Light-Years
another name for mars is the 'red planet' , after its red-orange color.
Yes. The reason for this is that all planets rotate, and if they rotate, then they must rotate about some axis. The cause of planetary rotation is a bit more complex. The origins of any planet begin in a nebula. Initially, the nebula is very large and has a very, very small amount of angular momentum (spin). As gravity begins to shrink the nebula, it spins faster and faster for the same reason a figure skater spins faster when he/she brings his/her arms closer. After the nebula flattens and forms and accretion disk and a star, the rest of the gas and dust clump together to form planets which still retain the original nebula's angular momentum, which causes them to spin. Since the nebula must have angular momentum in order for planets to form, all planets have angular momentum, and all planets rotate. If all planets rotate, then all of them must have an axis.
globules
A nebula is a large, indistinctly defined body in space, like a gas cloud or cloud of small particles.
small like a bear
Pluto is relatively small as planets go; it is officially categorized as a dwarf planet.
The smallest nebula ever found is the planetary nebula called "K 1-27." Discovered in 1996, it measures only about 0.02 light-years across. This nebula is notable for its compact size and unique structure, which includes a bright central star surrounded by a faint halo of gas. Its small dimensions challenge our understanding of nebula formation and evolution.
Small Planet Institute was created in 2001.
Diet for a Small Planet was created in 1971.
The ISBN of Diet for a Small Planet is 0345023781.
Small Planet Airlines was created in 2008.
Solutions for a Small Planet was created in 1996.
It is a big planet.
pluto