On Wave Nature of Matter
... available data on the distribution of 1.2 million celestial bodies at a fixed distance from the observer, scientists have discovered that galaxies are concentrated mainly either in its center or on the surface of spheres with a diameter of about half a billion light years. In a section such clusters ...
... available data on the distribution of 1.2 million celestial bodies at a fixed distance from the observer, scientists have discovered that galaxies are concentrated mainly either in its center or on the surface of spheres with a diameter of about half a billion light years. In a section such clusters ...
Interpretation of the Helix Planetary Nebula using Hydro
... Helix (NGC 7293), so that the Hubble Helix team of volunteers could devote a substantial fraction of the 14 hour Leonid stand-down period taking photographs with the full array of HST cameras including the newly installed wide angle Advanced Camera for Surveys (ACS). As the closest PNe to earth with ...
... Helix (NGC 7293), so that the Hubble Helix team of volunteers could devote a substantial fraction of the 14 hour Leonid stand-down period taking photographs with the full array of HST cameras including the newly installed wide angle Advanced Camera for Surveys (ACS). As the closest PNe to earth with ...
Galaxy evolution - Pontifical Academy of Sciences
... is or there was a merger in act? These are some: – Images of pairs of galaxies may reveal tails and bridges of stars and gas that are signs of interactions. – Counter-rotation. In some galaxies that otherwise look pretty ‘normal’, there is evidence that one of the components is counter-rotating or r ...
... is or there was a merger in act? These are some: – Images of pairs of galaxies may reveal tails and bridges of stars and gas that are signs of interactions. – Counter-rotation. In some galaxies that otherwise look pretty ‘normal’, there is evidence that one of the components is counter-rotating or r ...
Constraining Star-Formation History in SN Ia Host Galaxies Using
... ~ 30% of our galaxies have SFHs best fit by τ = 10 Gyr (very slow exponential decline) and/or C = 1 (all stars formed at a constant rate) which implies that they are actively star-forming ~ 30% best fit by dust2 = 0.0, with the distribution of higher values decreasing exponentially ⅓ best fit ...
... ~ 30% of our galaxies have SFHs best fit by τ = 10 Gyr (very slow exponential decline) and/or C = 1 (all stars formed at a constant rate) which implies that they are actively star-forming ~ 30% best fit by dust2 = 0.0, with the distribution of higher values decreasing exponentially ⅓ best fit ...
2 Big Bang - Net Texts
... think that matter that emits light makes up only a small part of the matter in the universe. The rest of the matter, about 80%, is dark matter. Dark matter emits no electromagnetic radiation, so we can’t observe it directly. However, astronomers know that dark matter exists because its gravity affec ...
... think that matter that emits light makes up only a small part of the matter in the universe. The rest of the matter, about 80%, is dark matter. Dark matter emits no electromagnetic radiation, so we can’t observe it directly. However, astronomers know that dark matter exists because its gravity affec ...
The Fundamental Plane, Stellar Popula6ons
... log r =1.45 log σ ‐ 0.85 log + constant (sca7er≈15‐20%) implying a ‘Blt’ relaBve to the virial FP corres. to M/L ∝ M0.15; this ‘Blt’ increases when the FP is measured in bluer bands The Blt in the FP could be produced by… Trend in Mstar/Mdark due to variaBons with galaxy mass of the ...
... log r =1.45 log σ ‐ 0.85 log + constant (sca7er≈15‐20%) implying a ‘Blt’ relaBve to the virial FP corres. to M/L ∝ M0.15; this ‘Blt’ increases when the FP is measured in bluer bands The Blt in the FP could be produced by… Trend in Mstar/Mdark due to variaBons with galaxy mass of the ...
Galaxy alignment within dark matter halos
... Directly compared with observational results This is the first attempt to use gas simulations to directly studying the satellite-central galaxy alignment. Reference: Dong, X.C., Lin, W.P., et al., 2014, ApJ Letter, ...
... Directly compared with observational results This is the first attempt to use gas simulations to directly studying the satellite-central galaxy alignment. Reference: Dong, X.C., Lin, W.P., et al., 2014, ApJ Letter, ...
Herschel-ATLAS: SDSS cross-correlation induced by weak lensing
... redshift >1.5 and that of SDSS galaxies at 0.2 ≤ z ≤ 0.6. Extensive, realistic simulations have shown that the crosscorrelation is explained by weak gravitational lensing and its much higher significance compared to those reported so far for spatially disjoint samples selected in other wavebands fol ...
... redshift >1.5 and that of SDSS galaxies at 0.2 ≤ z ≤ 0.6. Extensive, realistic simulations have shown that the crosscorrelation is explained by weak gravitational lensing and its much higher significance compared to those reported so far for spatially disjoint samples selected in other wavebands fol ...
Authentification of Einstein`s Static Universe of 1917
... the redshift increases in proportion to the increase of distance of the light source from us. Photons approaching the Milky Way might balance, or even outweigh this redshift effect. Therefore they are even blueshifted, as is the case with the Virgo cluster including the Andromeda galaxy. Photons dep ...
... the redshift increases in proportion to the increase of distance of the light source from us. Photons approaching the Milky Way might balance, or even outweigh this redshift effect. Therefore they are even blueshifted, as is the case with the Virgo cluster including the Andromeda galaxy. Photons dep ...
Why do we Still Believe in Newton`s Law? Facts, Myths and Methods
... has been achieved in the question as to what the related quantities ‘dark matter’ and ‘dark energy’ do really mean. A soulmate of King Alfonso, the astronomer Aguirre [2] commented: ‘these new discoveries... have been achieved at the expense of simplicity’. The question why nature comes up with a b ...
... has been achieved in the question as to what the related quantities ‘dark matter’ and ‘dark energy’ do really mean. A soulmate of King Alfonso, the astronomer Aguirre [2] commented: ‘these new discoveries... have been achieved at the expense of simplicity’. The question why nature comes up with a b ...
Dark matter
Dark matter is a hypothetical kind of matter that cannot be seen with telescopes but would account for most of the matter in the universe. The existence and properties of dark matter are inferred from its gravitational effects on visible matter, on radiation, and on the large-scale structure of the universe. Dark matter has not been detected directly, making it one of the greatest mysteries in modern astrophysics.Dark matter neither emits nor absorbs light or any other electromagnetic radiation at any significant level. According to the Planck mission team, and based on the standard model of cosmology, the total mass–energy of the known universe contains 4.9% ordinary matter, 26.8% dark matter and 68.3% dark energy. Thus, dark matter is estimated to constitute 84.5% of the total matter in the universe, while dark energy plus dark matter constitute 95.1% of the total mass–energy content of the universe.Astrophysicists hypothesized the existence of dark matter to account for discrepancies between the mass of large astronomical objects determined from their gravitational effects, and their mass as calculated from the observable matter (stars, gas, and dust) that they can be seen to contain. Their gravitational effects suggest that their masses are much greater than the observable matter survey suggests. Dark matter was postulated by Jan Oort in 1932, albeit based upon insufficient evidence, to account for the orbital velocities of stars in the Milky Way. In 1933, Fritz Zwicky was the first to use the virial theorem to infer the existence of unseen matter, which he referred to as dunkle Materie 'dark matter'. More robust evidence from galaxy rotation curves was discovered by Horace W. Babcock in 1939, but was not attributed to dark matter. The first hypothesis to postulate ""dark matter"" based upon robust evidence was formulated by Vera Rubin and Kent Ford in the 1960s–1970s, using galaxy rotation curves. Subsequently, many other observations have indicated the presence of dark matter in the universe, including gravitational lensing of background objects by galaxy clusters such as the Bullet Cluster, the temperature distribution of hot gas in galaxies and clusters of galaxies and, more recently, the pattern of anisotropies in the cosmic microwave background. According to consensus among cosmologists, dark matter is composed primarily of a not yet characterized type of subatomic particle.The search for this particle, by a variety of means, is one of the major efforts in particle physics today.Although the existence of dark matter is generally accepted by the mainstream scientific community, some alternative theories of gravity have been proposed, such as MOND and TeVeS, which try to account for the anomalous observations without requiring additional matter. However, these theories cannot account for the properties of galaxy clusters.