Plasma is a very high energy state of matter that is usually only found at high temperatures. Stars are extremely hot, which easily allows the development of plasma. Earth is much cooler, which makes it difficult for plasma to form. Plasma can still be found in lightning bolts and fire.
The universe.
Absolutely not, seeing as how they are meteorites burning up in the earth's atmosphere. The shine of the so called 'shooting stars' is created by the rock entering the earth's atmosphere and catching fire. The reason these 'shooting stars' dissipate so fast is because they completely disintegrate in a matter of seconds.
There are no stars between the earth and the moon. ** If there were, Earth would be as barren and lifeless as Mercury.
No. There are four "states" of matter; solid, liquid, gas, and plasma. Plasma is the state of extremely hot gasses in which the electrons have been stripped away from the atomic nuclei, causing the nuclei and electrons to exist in a kind of super-heated nuclear soup. Stars are "plasma".
A very high energy PHASE of matter not found normally on Earth is called plasma. Plasma is the most abundant form of matter in the Universe because of stars.
the state of matter found in stars is plasma.
Plasma is a very high energy state of matter that is usually only found at high temperatures. Stars are extremely hot, which easily allows the development of plasma. Earth is much cooler, which makes it difficult for plasma to form. Plasma can still be found in lightning bolts and fire.
Plasma.
stars
There are three common states of matter and one uncommon. Gas, liquid, solid, and then plasma. A good example of something is a plasma state would be the sun and other stars.
Plasma
form of matter found in lightning bolts, nuclear reactors, and stars?
Plasma
Neutron stars are made of the same matter as Earth, but they have so much mass that their matter has a high density and the atoms have been crushed with everything compressed into neutrons.
Helium is a gas and is found either in the earth's atmosphere or in the core of the sun.
No. Stars cannot fall to Earth They are far beyond the influence of Earth's gravity and far larger and more massive than Earth. The stars are suns, some larger and brighter than our own but unimaginably far away. The remains of dead stars are composed of extremely dense forms of matter not found on Earth. The "falling stars" are not actually stars; they are meteors, small pieces of rock and metal that burn up as they travel through Earth's upper atmosphere at extreme speeds.