Molar mass distribution: Difference between revisions

From formulasearchengine
Jump to navigation Jump to search
en>Dirac66
m Rv deletion of half a sentence, which left other half unintelligible
en>Dirac66
Definition of molar mass averages: Intro sentence should mention the 4 formulas which follow. Deleted volume fraction as not used in practice.
Line 1: Line 1:
In [[mathematics]], the '''fundamental theorem of [[Galois theory]]''' is a result that describes the structure of certain types of [[field extension]]s.
Just the experience of knowing that you have an illness and being in a hospital can be very terrifying. You console yourself saying that you have placed your health in safe hands and that the doctor will magically make the pain go away. You look forward to your meeting with the doctor with great hope.  If you have virtually any inquiries regarding wherever and the way to utilize [http://socylife.com/members/lorrie15/activity/3986/ botox For migraines], you'll be able to email us in our site. Finally the doctor arrives with a horde of assistants and nurses. He looks at your charts, rattles off a number of incomprehensible words, hollers out instructions to his staff, hurriedly assures you with a nod and leaves. After all, there are dozens others like you, whom he has to look after.<br><br><br><br>The situation may not be so grim everywhere, and this may very well be the rare worst-case-scenario. But we all have experienced this or heard of it in a lesser or greater degree sometime or the other. This may soon be a thing of the past as the winds of change blow over the field of medical care too. While technologies in medical care are advancing at a fast pace, the health care industry is slowly but surely realising and giving due importance to patient care too.<br><br>* Humane Touch<br>Patients are more than just Case Numbers or Diagnosis. Behind the broken hand or red eye is a human being who feels scared or anxious and thinks about his condition or treatment. Rather than just being handed a diagnosis and being told that they will be subjected to xyz tests or surgeries, patients appreciate it if they are involved in their treatment plans and their sentiments and opinions acknowledged.<br><br>* Tossing away Medical Jargon<br>[http://search.Huffingtonpost.com/search?q=Doctors&s_it=header_form_v1 Doctors] are so used to medical terminologies, that they often forget that mycosis fungoides or neurocysticercosis is not something that the common man discusses every day like he does the weather or the cricket scores! A simple jargon-free explanation of the diagnosis and treatment protocol is very essential to ensure that each patient understands it at his / her level. After all, if a patient is going to have his eye stitched up, he at least deserves to hear it in a way that he comprehends.<br><br>* Individualised Approach<br>Every patient has a unique personality with his own likes, dislikes, fears, opinions and experiences. The services rendered to the patient should be sensitive to each person's unique needs.<br><br>Says Dr Vandana Jain, Cornea and Lasik Eye Specialist in Navi Mumbai, "The health care industry should function like any other service industry. With increasing consumerism, clinical quality cannot be the only yardstick of quality health care. We have to realise that in addition to physicians, we are also caregivers." Dr Jain, who is the Director at Advanced Eye Hospital, Navi Mumbai has ensured that patient safety and [http://en.search.wordpress.com/?q=comfort comfort] are given prime importance at her eye hospital. Intuitive attention to patient needs and compassionate eye care are at the heart of the services rendered to each and every patient, every time.<br><br><br><br>To know more about how empathy and care are at the centre of the patient's experience at Advanced Eye Hospital, view this video... website the Care back into Patient Care
 
In its most basic form, the theorem asserts that given a field extension ''E''/''F'' which is [[finite extension|finite]] and [[Galois extension|Galois]], there is a one-to-one [[correspondence (mathematics)|correspondence]] between its [[intermediate field]]s and [[subgroup]]s of its [[Galois group]]. ([[Intermediate field]]s are fields ''K'' satisfying ''F'' ⊆ ''K'' ⊆ ''E''; they are also called ''subextensions'' of ''E''/''F''.)
 
==Proof==
 
The proof of the fundamental theorem is not trivial. The crux in the usual treatment is a rather delicate result of [[Emil Artin]] which allows one to control the dimension of the intermediate field fixed by a given group of automorphisms. The automorphisms of a Galois extension ''K''/''F'' are linearly independent as functions over the field ''K''. The proof of this fact follows from a more general notion, namely, the linear independence of [[Character (mathematics)|characters]].
 
There is also a fairly simple proof using the [[primitive element theorem]].  This proof seems to be ignored by most modern treatments, possibly because it requires a separate (but easier) proof in the case of finite fields.<ref>See {{cite book |last=Marcus |first=Daniel |title=Number Fields |others=Appendix 2 |location=New York |publisher=Springer-Verlag |year=1977 |isbn=0-387-90279-1 }}</ref>
 
In terms of its abstract structure, there is a [[Galois connection]]; most of its properties are fairly formal, but the actual isomorphism of the [[poset]]s requires some work.
 
==Explicit description of the correspondence==
 
For finite extensions, the correspondence can be described explicitly as follows.
* For any subgroup ''H'' of Gal(''E''/''F''), the corresponding field, usually denoted ''E<sup>H</sup>'', is the set of those elements of ''E'' which are fixed by every automorphism in ''H''.
* For any intermediate field ''K'' of ''E''/''F'', the corresponding subgroup is just Aut(''E''/''K''), that is, the set of those automorphisms in Gal(''E''/''F'') which fix every element of ''K''.
 
For example, the topmost field ''E'' corresponds to the trivial subgroup of Gal(''E''/''F''), and the base field ''F'' corresponds to the whole group Gal(''E''/''F'').
 
==Properties of the correspondence==
 
The correspondence has the following useful properties.
 
* It is ''inclusion-reversing''. The inclusion of subgroups ''H<sub>1</sub> &sube; H<sub>2</sub>'' holds if and only if the inclusion of fields ''E<sup>H<sub>1</sub></sup>'' ⊇ ''E<sup>H<sub>2</sub></sup>'' holds.
* Degrees of extensions are related to orders of groups, in a manner consistent with the inclusion-reversing property. Specifically, if ''H'' is a subgroup of Gal(''E''/''F''), then |''H''| = [''E'':''E<sup>H</sup>''] and |Gal(''E''/''F'')/''H''| = [''E<sup>H</sup>'':''F''].
* The field ''E<sup>H</sup>'' is a [[normal extension]] of ''F'' (or, equivalently, Galois extension, since any subextension of a separable extension is separable) if and only if ''H'' is a [[normal subgroup]] of Gal(''E''/''F''). In this case, the restriction of the elements of Gal(''E''/''F'') to ''E<sup>H</sup>'' induces an [[group isomorphism|isomorphism]] between Gal(''E<sup>H</sup>''/''F'') and the [[quotient group]] Gal(''E''/''F'')/''H''.
 
== Example ==
[[File:Lattice diagram of Q adjoin the positive square roots of 2 and 3, its subfields, and Galois groups.svg|thumb|600px|[[Lattice of subgroups]] and subfields]]
Consider the field ''K'' = '''Q'''(√2, √3) = '''Q'''(√2)(√3). Since ''K'' is first determined by adjoining √2, then √3, each element of ''K'' can be written as:
 
:<math>(a+b\sqrt{2})+(c+d\sqrt{2})\sqrt{3},</math>
 
where ''a'', ''b'', ''c'', ''d'' are rational numbers. Its Galois group ''G'' = Gal(''K''/'''Q''') can be determined by examining the automorphisms of ''K'' which fix ''a''. Each such automorphism must send √2 to either √2 or &minus;√2, and must send √3 to either √3 or &minus;√3 since the permutations in a Galois group can only permute the roots of an irreducible polynomial. Suppose that ''f'' exchanges √2 and &minus;√2, so
:<math>f\left((a+b\sqrt{2})+(c+d\sqrt{2})\sqrt{3}\right)=(a-b\sqrt{2})+(c-d\sqrt{2})\sqrt{3}=a-b\sqrt{2}+c\sqrt{3}-d\sqrt{6},</math>
and ''g'' exchanges √3 and &minus;√3, so
:<math>g\left((a+b\sqrt{2})+(c+d\sqrt{2})\sqrt{3}\right)=(a+b\sqrt{2})-(c+d\sqrt{2})\sqrt{3}=a+b\sqrt{2}-c\sqrt{3}-d\sqrt{6}.</math>
These are clearly automorphisms of ''K''. There is also the identity automorphism ''e'' which does not change anything, and the composition of ''f'' and ''g'' which changes the signs on ''both'' radicals:
 
:<math>(fg)\left((a+b\sqrt{2})+(c+d\sqrt{2})\sqrt{3}\right)=(a-b\sqrt{2})-(c-d\sqrt{2})\sqrt{3}=a-b\sqrt{2}-c\sqrt{3}+d\sqrt{6}.</math>
 
Therefore
 
:<math>G = \left\{1, f, g, fg\right\},</math>
 
and ''G'' is isomorphic to the [[Klein four-group]]. It has five subgroups, each of which correspond via the theorem to a subfield of ''K''.
* The trivial subgroup (containing only the identity element) corresponds to all of ''K''.
* The entire group ''G'' corresponds to the base field '''Q'''.
* The two-element subgroup {1, ''f'' } corresponds to the subfield '''Q'''(√3), since ''f'' fixes √3.
* The two-element subgroup {1, ''g''} corresponds to the subfield '''Q'''(√2), again since ''g'' fixes √2.
* The two-element subgroup {1, ''fg''} corresponds to the subfield '''Q'''(√6), since ''fg'' fixes √6.
 
== Example ==
[[File:Lattice diagram of Q adjoin a cube root of 2 and a primitive cube root of 1, its subfields, and Galois groups.svg|thumb|600px|[[Lattice of subgroups]] and subfields]]
The following is the simplest case where the Galois group is not abelian.
 
Consider the [[splitting field]] ''K'' of the polynomial ''x''<sup>3</sup>&minus;2 over '''Q'''; that is, ''K'' = '''Q''' (θ, ω),
<!-- aargggghhhh can't decide whether to assume that ''K'' is a subfield of '''C''' or whether to do it the pure algebraic way :-) - Dmharvey -->
where θ is a cube root of 2, and ω is a cube root of 1 (but not 1 itself). For example, if we imagine ''K'' to be inside the field of complex numbers, we may take θ to be the real cube root of 2, and ω to be
:<math>\omega = \frac{-1}2 + i\frac{\sqrt3}2.</math>
It can be shown that the Galois group ''G'' = Gal(''K''/'''Q''') has six elements, and is isomorphic to the group of permutations of three objects. It is generated by (for example) two automorphisms, say ''f'' and ''g'', which are determined by their effect on θ and ω,
:<math>f(\theta) = \omega \theta, \quad f(\omega) = \omega,</math>
:<math>g(\theta) = \theta, \quad g(\omega) = \omega^2,</math>
<!-- hmmm might be nice to explain a little more clearly the effect of these automorphisms - Dmharvey -->
and then
 
:<math>G = \left\{ 1, f, f^2, g, gf, gf^2 \right\}.</math>
 
The subgroups of ''G'' and corresponding subfields are as follows:
* As usual, the entire group ''G'' corresponds to the base field '''Q''', and the trivial group {1} corresponds to the whole field ''K''.
* There is a unique subgroup of order 3, namely {1, ''f'', ''f'' <sup>2</sup>}. The corresponding subfield is '''Q'''(ω), which has degree two over '''Q''' (the minimal polynomial of ω is ''x''<sup>2</sup> + ''x'' + 1), corresponding to the fact that the subgroup has [[Index of a subgroup|index]] two in ''G''. Also, this subgroup is normal, corresponding to the fact that the subfield is normal over '''Q'''.
* There are three subgroups of order 2, namely {1, ''g''}, {1, ''gf'' } and {1, ''gf'' <sup>2</sup>}, corresponding respectively to the three subfields '''Q'''(θ), '''Q'''(ωθ), '''Q'''(ω<sup>2</sup>θ). These subfields have degree three over '''Q''', again corresponding to the subgroups having index 3 in '''G'''. Note that the subgroups are ''not'' normal in ''G'', and this corresponds to the fact that the subfields are ''not'' Galois over '''Q'''. For example, '''Q'''(θ) contains only a single root of the polynomial ''x''<sup>3</sup>&minus;2, so it cannot be normal over '''Q'''.
<!--
would be nice to have a diagram of subgroups and subfields somewhere here!!! - and for the previous example too! - Dmharvey -->
 
==Applications==
 
The theorem converts the difficult-sounding problem of classifying the intermediate fields of ''E''/''F'' into the more tractable problem of listing the subgroups of a certain [[finite group]].
 
For example, to prove that the [[general quintic equation]] is not [[solvable by radicals]] (see [[Abel–Ruffini theorem]]), one first restates the problem in terms of [[radical extension]]s (extensions of the form ''F''(α) where α is an ''n''-th root of some element of ''F''), and then uses the fundamental theorem to convert this statement into a problem about groups that can then be attacked directly.
 
Theories such as [[Kummer theory]] and [[class field theory]] are predicated on the fundamental theorem.
 
==Infinite case==
There is also a version of the fundamental theorem that applies to infinite [[algebraic extension]]s, which are [[normal extension|normal]] and [[separable extension|separable]]. It involves defining a certain [[topological structure]], the [[Krull topology]], on the Galois group; only subgroups that are also [[closed set]]s are relevant in the correspondence.
 
==References==
<references/>
 
{{Fundamental theorems}}
 
{{DEFAULTSORT:Fundamental Theorem Of Galois Theory}}
[[Category:Field theory]]
[[Category:Group theory]]
[[Category:Galois theory]]
[[Category:Theorems in algebra]]
[[Category:Fundamental theorems|Galois theory]]

Revision as of 04:00, 14 February 2014

Just the experience of knowing that you have an illness and being in a hospital can be very terrifying. You console yourself saying that you have placed your health in safe hands and that the doctor will magically make the pain go away. You look forward to your meeting with the doctor with great hope. If you have virtually any inquiries regarding wherever and the way to utilize botox For migraines, you'll be able to email us in our site. Finally the doctor arrives with a horde of assistants and nurses. He looks at your charts, rattles off a number of incomprehensible words, hollers out instructions to his staff, hurriedly assures you with a nod and leaves. After all, there are dozens others like you, whom he has to look after.



The situation may not be so grim everywhere, and this may very well be the rare worst-case-scenario. But we all have experienced this or heard of it in a lesser or greater degree sometime or the other. This may soon be a thing of the past as the winds of change blow over the field of medical care too. While technologies in medical care are advancing at a fast pace, the health care industry is slowly but surely realising and giving due importance to patient care too.

* Humane Touch
Patients are more than just Case Numbers or Diagnosis. Behind the broken hand or red eye is a human being who feels scared or anxious and thinks about his condition or treatment. Rather than just being handed a diagnosis and being told that they will be subjected to xyz tests or surgeries, patients appreciate it if they are involved in their treatment plans and their sentiments and opinions acknowledged.

* Tossing away Medical Jargon
Doctors are so used to medical terminologies, that they often forget that mycosis fungoides or neurocysticercosis is not something that the common man discusses every day like he does the weather or the cricket scores! A simple jargon-free explanation of the diagnosis and treatment protocol is very essential to ensure that each patient understands it at his / her level. After all, if a patient is going to have his eye stitched up, he at least deserves to hear it in a way that he comprehends.

* Individualised Approach
Every patient has a unique personality with his own likes, dislikes, fears, opinions and experiences. The services rendered to the patient should be sensitive to each person's unique needs.

Says Dr Vandana Jain, Cornea and Lasik Eye Specialist in Navi Mumbai, "The health care industry should function like any other service industry. With increasing consumerism, clinical quality cannot be the only yardstick of quality health care. We have to realise that in addition to physicians, we are also caregivers." Dr Jain, who is the Director at Advanced Eye Hospital, Navi Mumbai has ensured that patient safety and comfort are given prime importance at her eye hospital. Intuitive attention to patient needs and compassionate eye care are at the heart of the services rendered to each and every patient, every time.



To know more about how empathy and care are at the centre of the patient's experience at Advanced Eye Hospital, view this video... website the Care back into Patient Care