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Each structure is composed of elements. Each of these elements, in its turn, can be subdivided on some more smaller elements. So this what substructure means.
Christop Hodkiewicz
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What are pyridine bases?
Bases containing the pyridine substructure, or derived from pyridine as a starting material. Pyridine is basically benzene with one of the carbons substituted with a nitrogen, if that helps.
What are the uses of electrons?
The purpose of an electron microscope is to be able to study structures and cells in greater detail than with a light microscope or the naked eye
What is the role of electrons in atoms?
These are the negatively charged particles in an atom. They are located in what is called an electron cloud which is basically an area where an atom's electrons move constantly in an orbit around the atom's cluster of neutrons and protons. Electrons are only 1/1000 the size of neutrons and protons, so they're pretty small and light weight. These particles are EXTREMELY crucial in understanding how chemistry and other life sciences work because they cause reactions to happen. It is through the sharing and transfer of electrons that compounds are made and destroyed, so electrons are very important.
Is a cloud an example of gas to liquid?
becaues they are a part of the atmospheFrom Wikipedia, the free encyclopediaJump to: navigation, searchSee also: Solar nebulait looks like its stiking its middle fingerWithin a few million years the light from bright stars will have boiled away this molecular cloud of gas and dust. The cloud has broken off from the Carina Nebula. Newly formed stars are visible nearby, their images reddened by blue light being preferentially scattered by the pervasive dust. This image spans about two light-years and was taken by the orbiting Hubble Space Telescope in 1999.A molecular cloud, sometimes called a stellar nursery if star formation is occurring within, is a type of interstellar cloud whose density and size permits the formation of molecules, most commonly molecular hydrogen (H2).Molecular hydrogen is difficult to detect by infrared and radio observations, so the molecule most often used to determine the presence of H2 is CO (carbon monoxide). The ratio between CO luminosity and H2 mass is thought to be constant, although there are reasons to doubt this assumption in observations of some other galaxies.[1]Contents1 Occurrence2 Types of molecular cloud 2.1 Giant molecular clouds (GMCs)2.2 Small molecular clouds2.3 High-latitude diffuse molecular clouds3 Processes 3.1 Star formation3.2 Physics4 References5 See alsoOccurrenceBarnard 68 Within our own galaxy, molecular gas accounts for less than one percent of the volume of the interstellar medium (ISM), yet it is also the densest part of the medium comprising roughly one-half of the total gas mass interior to the Sun's galactic orbit. The bulk of the molecular gas is contained in a molecular ring between 3.5 to 7.5 kiloparsecs from the center of the galaxy (the Sun is about 8.5 kiloparsecs from the center).[2] Large scale carbon monoxide maps of the galaxy show that the position of this gas correlates with the spiral arms of the galaxy.[3] That molecular gas occurs predominantly in the spiral arms argues that molecular clouds must form and dissociate on a timescale shorter than 10 million years-the time it takes for material to pass through the arm region.[4]Vertically, the molecular gas inhabits the narrow midplane of the Galactic disc with a characteristic scale height, Z, of approximately 50-75 parsec, much thinner than the warm atomic (Z=130-400 pc) and warm ionized (Z=1000 pc) gaseous components of the ISM.[5] The exception to the ionized gas distribution are HII regions which are bubbles of hot ionized gas created in molecular clouds by the intense radiation given off by young massive stars and as such they have approximately the same vertical distribution as the molecular gas.This smooth distribution of molecular gas is averaged out over large distances; however, the small scale distribution of the gas is highly irregular with most of it concentrated in discrete clouds and cloud complexes.[2]Types of molecular cloudGiant molecular clouds (GMCs)Vast assemblages of molecular gas with masses of 104-106 times the mass of the Sun are called giant molecular clouds (GMC). The clouds can reach tens of parsecs in diameter and have an average density of 102-103 particles per cubic centimetre (the average density in the solar vicinity is one particle per cubic centimetre). Substructure within these clouds is a complex pattern of filaments, sheets, bubbles, and irregular clumps.[4] A GMC contains 100,000 to 10,000,000 times as much mass as the Sun by virtue of its size: 50 to 300 light-years across.[citation needed] The densest parts of the filaments and clumps are called "molecular cores", whilst the densest molecular cores are, unsurprisingly, called "dense molecular cores" and have densities in excess of 104-106 particles per cubic centimeter. Observationally molecular cores are traced with carbon monoxide and dense cores are traced with ammonia. The concentration of dust within molecular cores is normally sufficient to block light from background stars so that they appear in silhouette as dark nebulae.[6]GMCs are so large that "local" ones can cover a significant fraction of a constellation; thus they are often referred to by the name of that constellation, e.g. the Orion Molecular Cloud (OMC) or the Taurus Molecular Cloud (TMC). These local GMCs are arrayed in a ring in the neighborhood of the Sun coinciding with the Gould Belt.[7] The most massive collection of molecular clouds in the galaxy forms an asymmetrical ring around the galactic center at a radius of 120 parsecs; the largest component of this ring is the Sagittarius B2 complex. The Sagittarius region is chemically rich and is often used as an exemplar by astronomers searching for new molecules in interstellar space.[8]Small molecular cloudsMain article: Bok globule Isolated gravitationally bound small molecular clouds with masses less than a few hundred times the mass of the Sun are called Bok globules. The densest parts of small molecular clouds are equivalent to the molecular cores found in GMCs and are often included in the same studies.High-latitude diffuse molecular cloudsMain article: Infrared cirrus In 1984 IRAS identified a new type of diffuse molecular cloud.[9] These were diffuse filamentary clouds that are visible at high galactic latitudes (looking out of the plane of the galactic disc). These clouds would have a typical density of 30 particles per cubic centimeter.[10]ProcessesStar formationMain article: Star formation Composite image showing young stars in and around molecular cloud Cepheus B.The general hypothesis is that the creation of newborn stars occurs exclusively within molecular clouds. This is a natural consequence of their low temperatures and high densities, since the gravitational force acting to collapse the cloud may exceed the internal pressures that are acting "outward" to prevent a collapse. Also there is observed evidence that the large, star-forming clouds are confined to a large degree by their own gravity (like stars, planets, and galaxies) rather than external pressure (like clouds in the sky). The evidence comes from the fact that the "turbulent" velocities inferred from CO linewidth scale in the same manner as the orbital velocity (a virial relation).PhysicsThe physics of molecular clouds are poorly understood and much debated. Their internal motions are governed by turbulence in a cold, magnetized gas, for which the turbulent motions are highly supersonic but comparable to the speeds of magnetic disturbances. This state is thought to lose energy rapidly, requiring either an overall collapse or a steady reinjection of energy. At the same time, the clouds are known to be disrupted by some process-most likely the effects of massive stars-before a significant fraction of their mass has become stars. Molecular clouds, and especially "giant" molecular clouds (GMCs), are often the home of astronomical masers
How do you use substructure in a sentence?
The substructure of the bridge was corroded.
Can you give a sentence of substructure?
no
What is the antonym for substructure?
top
What is the 3rd soil horizon?
Mineral substructure
What does substructure mean?
Each structure is composed of elements. Each of these elements, in its turn, can be subdivided on some more smaller elements. So this what substructure means.
What is a substructure?
•The lowest portion of the building structure.Usually located below the ground level. •A foundation is a part of the structure which is in direct contact with the ground to which the loads are transmitted.
The latin base in the word substructure means?
to build
What is a structure below the roadbed on a bridge called?
the substructure-gogodude32
What is a bridge substructure?
The foundational or floating structure supporting the road surface portion of a bridge.
What is wall footing?
a portion of a foundation/substructure that transmits load unto the soil/ground.
What are the main parts of an electron?
The electron is a fundamental particle with no known substructure: it does not have parts, it is simply an electron.
What is economical span of a bridge?
its the span of a bridge for which the cost of building both substructure and superstructure is same....
