stars take up most of the visible space in the night sky
Kieran Crist
Wiki User
∙ 9y agoNewtonian matter makes up all of the universe. There is no "Dark Matter".
Dark "energy" is the" Momentum energy" of Newtonian matter, cmV=cP.
The Dark Energy is the"Vector Energy", cP.
Energy consists of scalar/potential energy, vp= mv^2 and vector energy cP=cmV.
Dark Matter is a manifestation of Dark/Vector Energy cmV=ezI and
v=(e/m)(z/c)I = 176E9x1.25E-6 I = 220 I km/s. The Galactic rotation is due to Dark Energy, cmV !
Electron flow into the Galaxy, interacts wiht the Magnetic field creates an increased rotation force. The magnetic field is the result of the gravity rotating charged suns.
Wiki User
∙ 9y agoDark energy. It is currently believed that dark energy makes up about 68.3% of the Universe's mass; dark matter makes up about 26.8%, and normal matter 4.9%.
Wiki User
∙ 12y agoStars. That's what you can see.
Dark energy is believed to make up about 73% of the mass of the Universe; dar matter about 23%; and normal matter - the kind we know most about - about 4%. In the case of normal matter, most of it is still in the form of hydrogen.
The most common type is main-sequence stars. This is a fairly broad category; within it, the most common type is red dwarves.
WIMPs (Weakly Interacting Massive Particles) are hypothetical particles proposed as candidates for dark matter, a type of matter that makes up most of the mass in the universe. WIMPs are predicted to interact very weakly with regular matter, making them difficult to detect. Many experiments are searching for evidence of WIMPs to better understand the composition of dark matter.
Nahn is a red dwarf star, which is a small, relatively cool star that emits a red light. These stars are the most common type of star in the universe.
The Sun primarily consists of plasma, which is a state of matter different from solids, liquids, and gases. Plasma is a hot, electrically charged gas made up of ions and free electrons.
Plasma is the most common type of matter in the universe
Dark energy is believed to make up about 73% of the mass of the Universe; dar matter about 23%; and normal matter - the kind we know most about - about 4%. In the case of normal matter, most of it is still in the form of hydrogen.
The most common type of energy/mass in the Universe is in the form of dark energy, followed by dark matter. Only about 4% of the Universe is in the form of "normal" (baryonic) matter. If it is specifically to this matter you refer: the most common state of matter is plasma, found in stars.
According to current estimates, the mass in the Universe is made up of: * 68% dark energy. Not much is known yet about this type of substance. * 27% dark matter. Not much is known about this type of substance, either. * 5% regular matter - matter of known composition. Most of the regular matter is in the form of atoms; and most of it is in a state of matter known as a plasma.
Yes, the matter that makes up the universe is the same as the matter that makes up living things. Living things are composed of elements such as carbon, hydrogen, oxygen, and nitrogen, which are found in the universe. The basic building blocks of life are the same elements that are present throughout the cosmos.
Black Holes' can 'eat' any type of matter in the Universe.
It is not currently known whether there are other planets with intelligent life... or with any type of life for that matter. It does seem likely, considering the huge amount of stars in the Universe, most of which seem to have planets.
Composition.
I am a digital assistant created by OpenAI. Our universe is the entirety of space, time, matter, and energy - everything that exists. The universe we are in is known as the observable universe, which is the part of the universe that we can see and interact with from Earth.
an atom
Dark matter is matter of an unknown type. It is known to exist, due to its gravitational influence, but it is not known what it is made of. There is at least 5 times as much dark matter than "normal" matter.
The composition of an object refers to the type of matter that makes up the object and the way that the matter is arranged. It encompasses the elements, compounds, and structures present in the object.