scispace - formally typeset
Search or ask a question

Does the Bible talk about dark matter? 

Charged particle
Galactic halo
Universe
Galaxy
Dark matter

Answers from top 5 papers

More filters
Papers (5)Insight
Open accessJournal ArticleDOI
Atomic Dark Matter
David E. Kaplan, Gordan Krnjaic, Keith Rehermann, Christopher M. Wells 
19 May 2010-Journal of Cosmology and Astroparticle Physics
262 Citations
We propose that dark matter is dominantly comprised of atomic bound states.
Open accessJournal ArticleDOI
Charged dark matter
A. De Rújula, Sheldon L. Glashow, Uri Sarid 
19 Mar 1990-Nuclear Physics
171 Citations
We propose that dark matter is made of CHAMP's, charged massive particles that survive annihilation in the early Universe.
Open accessJournal ArticleDOI
Alas, the dark matter structures were not that trivial
Kasper B. Schmidt, Kasper B. Schmidt, Steen H. Hansen, Andrea V. Macciò 
14 Nov 2008-The Astrophysical Journal
30 Citations
This implies that we still do not understand the origin of the profiles of dark matter structures.
Open accessJournal ArticleDOI
Dark Matter in the Universe
Vera C. Rubin
01 Jan 1986-Highlights of Astronomy
11 Citations
I suspect that this talk this evening is the first IAU Discourse devoted to something that astronomers cannot see at any wavelength: Dark Matter in the Universe.
Open accessJournal ArticleDOI
Implications of two-component dark matter induced by forbidden channels and thermal freeze-out
Mayumi Aoki, Takashi Toma, Takashi Toma 
20 Jan 2017-Journal of Cosmology and Astroparticle Physics
22 Citations
We find that interesting implications emerge between the two dark matter components in this framework.

Related Questions

What is dark matter truly?5 answersDark matter is a mysterious, nonluminous form of matter that constitutes about 27% of the mass-energy balance in the universe, as confirmed by astronomical observations. It behaves like ordinary matter gravitationally but has not been directly observed in particle physics experiments, making it a significant enigma in modern astrophysics. Dark matter is postulated to exist in the form of weakly interacting massive particles (WIMPs) and is expected to be found in halos surrounding galaxies, including the Milky Way. The idea that dark matter is a manifestation of gravity itself has been proposed, suggesting that its existence is intricately linked to gravitational effects. Efforts are ongoing to detect dark matter particles either directly in underground laboratories or indirectly through experiments searching for decay or annihilation products in the night sky.
What is the significance or dark matter?4 answersDark matter is a significant topic in academic and scientific fields. It was discovered in the late 19th and early 20th centuries through indirect measurements of abnormal velocity and mass dispersion patterns. Dark matter does not interact with photons or electromagnetic waves and is believed to make up about 23% of the universe. Understanding dark matter is crucial as it can provide insights into the early thermal history of the universe and constrain its expansion rate and composition. Additionally, dark matter plays a role in complex diseases and cellular functions, challenging the traditional focus on protein-coding genes. Recognizing the existence of "dark matter" assets in the external sector of the United States sheds light on its ability to sustain its external position despite mounting foreign liabilities. Overall, studying dark matter has implications for cosmology, astrophysics, and biology.
How much caffeine does dark matter have?4 answers
What does the Bible say about dark matter?5 answers
What genre is the book dark matter?7 answers
Will dark matter ever be found?6 answers

See what other people are reading

Can weak lensing observations provide insights into the distribution and dynamics of dark matter within dwarf galaxies?
5 answers
What was before the big bang?
5 answers
What experimental evidence suggest light is a particle?
5 answers
What experimental evidence suggest light is a particle?
5 answers
Why the region around N=50 is of special interest?
5 answers
Can star velocity at halo trace dark matter distribution?
4 answers
Metal-poor stars in the Milky Way halo can effectively trace the local dark matter velocity distribution, indicating a common origin. These stars, along with other halo tracers, are influenced not only by the Milky Way itself but also by satellites like the Large Magellanic Cloud, leading to large-scale kinematic patterns in the stellar halo. Recent studies have shown that specific populations of stars, such as M giants, can be sensitive to rare, massive accretion events, providing insights into the local dark matter distribution. Weak gravitational lensing analyses have also revealed that the lensing signal around galaxies is closely related to their velocity dispersion, shedding light on the projected distribution of dark matter. Therefore, star velocities in the halo can indeed serve as valuable tracers of the underlying dark matter distribution.What is the dark matter radial profile of milky way?
5 answers
The dark matter radial profile of the Milky Way has been extensively studied using various methods. Recent research has shown that the Milky Way's dark matter density profile can be better described by a cored Einasto profile with a slope parameter of $0.91^{+0.04}_{-0.05}$, rather than a generalized Navarro-Frenk-White (NFW) profile. Additionally, investigations utilizing cosmological simulations have highlighted the importance of the "splashback" radius in delineating the outer boundary of the dark matter halo, with significant scatter observed in the velocity dispersion profiles of dark and luminous tracers within Milky Way-mass halos. Furthermore, a non-parametric method has been developed to directly infer the dark matter contribution to the circular velocity across the Galaxy, allowing for a clean determination of the dark matter profile without theoretical bias.What is the concept of the universe according to Augustinus?
4 answers
Augustine's concept of the universe in his Confessiones involves the use of exempla, which are scenes or examples that play a significant role in his conversion. These exempla, such as the famous garden scene with children singing, are seen as part of divine predestination, guiding individuals towards conversion. Additionally, Augustine's view of the universe aligns with a universal plan of salvation rooted in divine providence, connecting individuals to a pre-existing salvation scheme since creation. This contrasts with other philosophical views, like that of Lucretius, who emphasized a mechanistic understanding of the universe governed by natural laws rather than divine intervention. Augustine's approach intertwines exempla with the development of his understanding of the human will, showcasing a unique blend of theological and philosophical elements in his concept of the universe.What is the concept of the universe according to Augustine?
5 answers
Augustine's concept of the universe revolves around the idea of creation and time. He delves into the nature of creation, influenced by his cultural background and beliefs in divine dissolution. Augustine's thoughts on time and the beginning of the Universe are reflected in a cosmological model that proposes a causality argument to address cosmological homogeneity and entropy issues. This model suggests a chronology violating region preceding the rest of the Universe, replacing the spacelike boundary of the Big Bang with a null hypersurface where gravitational degrees of freedom are nearly frozen, leading to a highly homogeneous and thermalized matter and radiation content. Augustine's views intertwine with this model, emphasizing a deep connection between divine predestination and the unfolding of a universal salvation plan embedded in creation.Role of volume in gas law?
5 answers
Volume plays a crucial role in various gas laws and their applications. In the context of star formation laws, volume densities of gas (HI+H2) in galaxies exhibit a tight correlation with the star formation rate (SFR), emphasizing the importance of considering three-dimensional density profiles by accounting for the radial growth of gaseous discs. Additionally, in the study of heat radiation from gas volumes, the laws of radiation from gas volumes have been shown to impact fuel saving and environmental pressure reduction by considering the dimensions, power, and geometrical position of radiative gas volumes, highlighting the significance of volume in heat transfer calculations. Therefore, understanding and incorporating volume measurements are essential in various fields to comprehend and predict the behavior of gases accurately.How do galaxy clusters contribute to the large-scale structure of the universe?
5 answers
Galaxy clusters play a crucial role in shaping the large-scale structure of the universe through various mechanisms. The growth of the most massive halos via accretion and mergers generates shocks, bulk motions, and turbulence, injecting kinetic energy that contributes to heating and virialization, impacting the intra-cluster medium. Additionally, the expansion of the universe, incorporating a cosmological constant, affects the formation of large-scale structures, leading to gravitational phase transitions and cosmic energy equations within the system of galaxies. Observations of extragalactic filaments and the mapping of large-scale density fluctuations using statistical parameters like power spectra provide insights into the structure of the universe and constrain models of dark matter, dark energy, inflation, and brane cosmology. Tools like CLASS-PT and theoretical error likelihood approaches enable precise cosmological analyses of galaxy clustering data, extracting valuable cosmological information.