Neutrino decoupling: Difference between revisions

Latest revision as of 17:59, 6 January 2013

Hansen's problem is a problem in planar surveying, named after the astronomer Peter Andreas Hansen (1795–1874), who worked on the geodetic survey of Denmark. There are two known points A and B, and two unknown points P₁ and P₂. From P₁ and P₂ an observer measures the angles made by the lines of sight to each of the other three points. The problem is to find the positions of P₁ and P₂. See figure; the angles measured are (α₁, β₁, α₂, β₂).

Since it involves observations of angles made at unknown points, the problem is an example of resection (as opposed to intersection).

Solution method overview

Define the following angles: γ = P₁AP₂, δ = P₁BP₂, φ = P₂AB, ψ = P₁BA. As a first step we will solve for φ and ψ. The sum of these two unknown angles is equal to the sum of β₁ and β₂, yielding the following equation:

ϕ + ψ = β_{1} + β_{2}

A second equation can be found more laboriously, as follows. The law of sines yields

\frac{A B}{P_{2} B} = \frac{\sin α_{2}}{\sin ϕ}

and

\frac{P_{2} B}{P_{1} P_{2}} = \frac{\sin β_{1}}{\sin δ}

combining these together we get

\frac{A B}{P_{1} P_{2}} = \frac{\sin α_{2} \sin β_{1}}{\sin ϕ \sin δ}

An entirely analogous reasoning on the other side yields

\frac{A B}{P_{1} P_{2}} = \frac{\sin α_{1} \sin β_{2}}{\sin ψ \sin γ}

Setting these two equal gives

\frac{\sin ϕ}{\sin ψ} = \frac{\sin γ \sin α_{2} \sin β_{1}}{\sin δ \sin α_{1} \sin β_{2}} = k

Using a known trigonometric identity this ratio of sines can be expressed as the tangent of an angle difference:

\tan \frac{ϕ - ψ}{2} = \frac{k - 1}{k + 1} \tan \frac{ϕ + ψ}{2}

This is the second equation we need. Once we solve the two equations for the two unknowns $ϕ$ and $ψ$ , we can use either of the two expressions above for $\frac{A B}{P_{1} P_{2}}$ to find P₁P₂ since AB is known. We can then find all the other segments using the law of sines.^[1]

Solution algorithm

We are given four angles (α₁, β₁, α₂, β₂) and the distance AB. The calculation proceeds as follows:

Calculate $γ = π - α_{1} - β_{1} - β_{2}, δ = π - α_{2} - β_{1} - β_{2}$

Calculate $k = \frac{\sin γ \sin α_{2} \sin β_{1}}{\sin δ \sin α_{1} \sin β_{2}}$

Let $s = β_{1} + β_{2}$ , $d = 2 \arctan [\frac{k - 1}{k + 1} \tan (s / 2)]$ and then $ϕ = (s + d) / 2$ , $ψ = (s - d) / 2 .$

Calculate

P_{1} P_{2} = A B \frac{\sin ϕ \sin δ}{\sin α_{2} \sin β_{1}},

or equivalently,

P_{1} P_{2} = A B \frac{\sin ψ \sin γ}{\sin α_{1} \sin β_{2}} .

If one of these fractions has a denominator close to zero, use the other one.

References

43 year old Petroleum Engineer Harry from Deep River, usually spends time with hobbies and interests like renting movies, property developers in singapore new condominium and vehicle racing. Constantly enjoys going to destinations like Camino Real de Tierra Adentro.

↑ Udo Hebisch: Ebene und Sphaerische Trigonometrie, Kapitel 1, Beispiel 4 (2005, 2006)[1]

[1] Udo Hebisch: Ebene und Sphaerische Trigonometrie, Kapitel 1, Beispiel 4 (2005, 2006)[1]

[1]

@@ Line 1: / Line 1: @@
-The main advantage of using the blog is that anyone can use the Word - Press blog and customize the elements in the theme regardless to limited knowledge about internet and website development. It is used by around 25% of all new websites, and there are more than 27 thousand plugins currently available. The effect is to promote older posts by moving them back onto the front page and into the rss feed. Donor oocytes and menopausal pregnancy: Oocyte donation to women of advanced reproductive age: pregnancy results and obstetrical outcomes in patients 45 years and older. provided by Word - Press Automatic Upgrade, so whenever you need to update the new version does not, it automatically creates no webmaster. <br><br>In the event you loved this informative article and you want to receive more information relating to [http://iz.sa/wordpressbackup523490 backup plugin] assure visit our web site. Creating a website from scratch can be such a pain. Infertility can cause a major setback to the couples due to the inability to conceive. Several claim that Wordpress just isn't an preferred tool to utilise when developing a professional site. Now, I want to anxiety that not every single query will be answered. The biggest advantage of using a coupon or deal plugin is that it gives your readers the coupons and deals within minutes of them becoming available. <br><br>Minor and medium sized corporations also have a lot to obtain by shelling out in a very good website. As of now, Pin2Press is getting ready to hit the market. You've got invested a great cope of time developing and producing up the topic substance. Newer programs allow website owners and internet marketers to automatically and dynamically change words in their content to match the keywords entered by their web visitors in their search queries'a feat that they cannot easily achieve with older software. Premium vs Customised Word - Press Themes - Premium themes are a lot like customised themes but without the customised price and without the wait. <br><br>A built-in widget which allows you to embed quickly video from popular websites. * Robust CRM to control and connect with your subscribers. When we talk about functional suitability, Word - Press proves itself as one of the strongest contestant among its other rivals. The most important plugins you will need are All-in-One SEO Pack, some social bookmarking plugin, a Feedburner plugin and an RSS sign up button. It does take time to come up having a website that gives you the much needed results hence the web developer must be ready to help you along the route. <br><br>Instead, you can easily just include it with our bodies integration field in e - Panel. I don't want that for my visitors and I'm quite sure they don't either. Useful Plugins  Uber - Menu Top Megamenu  Now it is the time of sticky Top navbar. Change the entire appearance of you blog using themes with one click. As for performing online business, websites and blogs are the only medium that are available to interact with customers and Word - Press perform this work with the help of cross-blog communication tools, comments and  full user registration plug-ins.
+[[Image:HansenPblm1.png|right]]
+'''Hansen's problem''' is a problem in planar [[surveying]], named after the astronomer [[Peter Andreas Hansen]] (1795&ndash;1874), who worked on the geodetic survey of Denmark. There are two known points ''A'' and ''B'', and two unknown points ''P''<sub>1</sub> and ''P''<sub>2</sub>. From ''P''<sub>1</sub> and ''P''<sub>2</sub> an observer measures the angles made by the lines of sight to each of the other three points.  The problem is to find the positions of ''P''<sub>1</sub> and ''P''<sub>2</sub>. See figure; the angles measured are&nbsp;(''&alpha;''<sub>1</sub>,&nbsp;''&beta;''<sub>1</sub>,&nbsp;''&alpha;''<sub>2</sub>,&nbsp;''&beta;''<sub>2</sub>).
+Since it involves observations of angles made at unknown points, the problem is an example of [[Resection (orientation)|resection]] (as opposed to intersection).
+== Solution method overview==
+Define the following angles:
+''&gamma;''&nbsp;=&nbsp;''P''<sub>1</sub>''AP''<sub>2</sub>, ''&delta;''&nbsp;=&nbsp;''P''<sub>1</sub>''BP''<sub>2</sub>, ''&phi;''&nbsp;=&nbsp;''P''<sub>2</sub>''AB'', ''&psi;''&nbsp;=&nbsp;''P''<sub>1</sub>''BA''.
+As a first step we will solve for ''&phi;'' and ''&psi;''.
+The sum of these two unknown angles is equal to the sum of ''&beta;''<sub>1</sub> and ''&beta;''<sub>2</sub>, yielding the following equation:
+:<math>\phi+\psi=\beta_1+\beta_2</math>
+A second equation can be found more laboriously, as follows.  The [[law of sines]] yields
+:<math>\frac{AB}{P_2 B}=\frac{\sin \alpha_2}{\sin \phi}</math> and
+:<math>\frac{P_2 B}{P_1 P_2}=\frac{\sin \beta_1}{\sin \delta}</math>
+combining these together we get
+:<math>\frac{AB}{P_1 P_2}=\frac{\sin \alpha_2 \sin \beta_1}{\sin \phi \sin \delta}</math>
+An entirely analogous reasoning on the other side yields
+:<math>\frac{AB}{P_1 P_2}=\frac{\sin \alpha_1 \sin \beta_2}{\sin \psi \sin \gamma}</math>
+Setting these two equal gives
+:<math>\frac{\sin \phi}{\sin \psi}=\frac{\sin \gamma \sin \alpha_2 \sin \beta_1}{\sin \delta \sin \alpha_1 \sin \beta_2} = k</math>
+Using a known [[trigonometric identity]] this ratio of sines can be expressed as the tangent of an angle difference:
+:<math>\tan \frac{\phi - \psi}{2}=\frac{k-1}{k+1}\tan\frac{\phi+\psi}{2}</math>
+This is the second equation we need. Once we solve the two equations for the two unknowns <math>\phi</math> and <math>\psi</math>, we can use either of the two expressions above for <math>\frac{AB}{P_1 P_2}</math> to find ''P''<sub>1</sub>''P''<sub>2</sub> since ''AB'' is known.  We can then find all the other segments using the law of sines.<ref>Udo Hebisch: Ebene und Sphaerische Trigonometrie, Kapitel 1, Beispiel 4 (2005, 2006)[http://www.mathe.tu-freiberg.de/~hebisch/skripte/sphaerik/strigo.pdf]</ref>
+== Solution algorithm ==
+We are given four angles (''&alpha;''<sub>1</sub>,&nbsp;''&beta;''<sub>1</sub>,&nbsp;''&alpha;''<sub>2</sub>,&nbsp;''&beta;''<sub>2</sub>) and the distance ''AB''.  The calculation proceeds as follows:
+* Calculate <math>\gamma=\pi-\alpha_1-\beta_1-\beta_2,\quad \delta=\pi-\alpha_2-\beta_1-\beta_2</math>
+* Calculate <math>k=\frac{\sin \gamma \sin \alpha_2 \sin \beta_1}{\sin \delta \sin \alpha_1 \sin \beta_2}</math>
+* Let <math>s=\beta_1+\beta_2</math>, <math>d=2 \arctan \left[ \frac{k-1}{k+1}\tan(s/2)\right]</math> and then <math>\phi=(s+d)/2</math>, <math>\psi=(s-d)/2.</math>
+* Calculate
+::<math>P_1 P_2 = AB \frac{\sin \phi \sin \delta}{\sin \alpha_2 \sin \beta_1},</math>
+: or equivalently,
+::<math>P_1 P_2 = AB \frac{\sin \psi \sin \gamma}{\sin \alpha_1 \sin \beta_2}.</math>
+: If one of these fractions has a denominator close to zero, use the other one.
+== References ==
+{{reflist}}
+[[Category:Trigonometry]]
+[[Category:Surveying]]
+[[Category:Mathematical problems]]

Neutrino decoupling: Difference between revisions

Latest revision as of 17:59, 6 January 2013

Solution method overview

Solution algorithm

References

Navigation menu

Search