plasma
The universe.
The universe includes all of space, time, matter, and energy. It encompasses everything that exists, including galaxies, stars, planets, and all forms of life.
That means matter between stars - mainly dust and gas.
The universe is vast, encompassing everything that exists -- from planets and stars to dust and gases. It includes all matter, energy, space, and time, forming the fabric of reality as we know it. Its mysteries continue to fascinate and inspire exploration and discovery.
All matter and energy in space, including stars, planets, galaxies, and dark matter, make up what is known as the universe. This vast expanse of space contains everything that exists and interacts according to the laws of physics.
PLASMA
Star matter exists in the heightened state of plasma, a superheated state of matter in which electrons are not bound to the atoms as they usually would be.
The state of matter that exists inside the sun and other stars is called plasma. Plasma is a superheated state of matter in which atoms are stripped of their electrons, resulting in a soup of ions and free electrons.
The matter phase found in stars is called plasma. Plasma is the fourth state of matter, consisting of ionized gas with positively and negatively charged particles that make it highly conductive and responsive to electromagnetic fields.
The universe.
Plasma is the fourth state of matter that exists at high temperatures, where atoms lose their electrons and become ionized. Example of matter in plasma state include the Sun, lightning bolts, and fluorescent tube lights.
Dust, gas, dark matter, perhaps individual stars and planets.
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.
Galaxy exists because stars and nebulae exists.
Yes, plasma is the fourth state of matter where the gas phase is heated to high temperatures, causing the atoms to ionize. Hydrogen can be in a plasma state at very high temperatures, such as in stars or during fusion reactions.
Plasma exists in places like stars, lightning bolts, and certain laboratory settings. It is the most common state of matter in the universe, with examples including the Sun's core and the ionosphere of Earth.
Plasma is the most common phase of matter due to the fact that most of the hydrogen in the universe has condensed to form stars. Stars use the process of nucleosynthesis to form elements heavier than hydrogen, which releases the energy of fusion to the surrounding layers of hydrogen, which become ionized impart by it.