What is most of the mass of a galaxy?

Answer 1

It is currently estimated that 73% of the mass in the Universe is a mysterious substance called dark energy, 23% is another mysterious substance called dark matter, and 4% is made up of "normal" matter (matter of known composition).

Answer2: the mass of the universe (2E53 kg) is normal matter including Plasma! Dark Energy" is the result of theoretical defects. Dark energy is the centrifugal vector energy mcV, associated with the the proper Quaternion Gravitational theory:

E = -mGM/r + mcV = - mu/r + mcV

The universe is composed of Quaternions, a scalar and three vector parts; a boson and a fermion part. Newton and Einstein's gravitational theories do not include the vector component mcV. Incorporating this proper quaternion energy the universe is seen to be in equilibrium and the redshift is the indicator of Continuity.

Equilibrium is

0 = (d/dr + Del)E

0 = (d/dr +Del)m(-u/r + cV) = m(u/r2 - cDel.V) + m(cdV/dr - Del u/r + cDelxV)

At Continuity, cos(RV) = v/c. At equilibrium v=c and GM/r = c2

The Quaternion universe is composed of normal matter and properly viewed has no need of "dark energy or dark matter (electric universe).

Answer 2

Most of the matter in our galaxy - at least 80% or so - resides in a mysterious so-called "dark matter". It is not known what this is exactly. This is one of the most pressing problems in modern Astronomy. We know that the mater exists (it shows itself through gravitational interaction), but we don't know almost anything about its nature.

Most of the matter in our galaxy - at least 80% or so - resides in a mysterious so-called "dark matter". It is not known what this is exactly. This is one of the most pressing problems in modern Astronomy. We know that the mater exists (it shows itself through gravitational interaction), but we don't know almost anything about its nature.

Most of the matter in our galaxy - at least 80% or so - resides in a mysterious so-called "dark matter". It is not known what this is exactly. This is one of the most pressing problems in modern Astronomy. We know that the mater exists (it shows itself through gravitational interaction), but we don't know almost anything about its nature.

Most of the matter in our galaxy - at least 80% or so - resides in a mysterious so-called "dark matter". It is not known what this is exactly. This is one of the most pressing problems in modern Astronomy. We know that the mater exists (it shows itself through gravitational interaction), but we don't know almost anything about its nature.

Answer 3

A good question. Some calculations indicate that the majority of the mass in the Milky Way galaxy is unaccounted for; that is, we know that the mass exists because its gravity keeps the galaxy together. But when we add up all the stars, nebulas and gas clouds, we don't have nearly enough mass.

Some scientists believe that "dark matter" between the stars must be contributing to the Milky Way's gravity, while other scientists believe that the missing mass may be contained in a super-massive black hole at the center of the galaxy.

The only completely honest answer right now is "We don't know yet."

Answer 4

Most of the matter in our galaxy - at least 80% or so - resides in a mysterious so-called "dark matter". It is not known what this is exactly. This is one of the most pressing problems in modern Astronomy. We know that the mater exists (it shows itself through gravitational interaction), but we don't know almost anything about its nature.

Answer 5

Most of the mass of a galaxy comes from dark matter, a hypothetical type of matter that does not emit light or energy. Dark matter does not interact with electromagnetic forces, making it difficult to detect directly, but its gravitational effects are observed in the way it influences the motion of stars and galaxies within a galaxy.

Answer 6

stars take up most of the visible space in the night sky

Answer 7

spiral gujunctions

Answer 8

The dark halo aka the Sun

Answer 9

a black hole