Definition talk:Angle

I can't decide which construction of angles makes the more sense: undirected angles with everything on the interval 0 to 180 degrees or directed angles on an open interval. Thoughts? --Cynic 03:04, 15 November 2008 (UTC)

Both, with an explanation as to the difference in concept between the two and the connection between them. Then any proofs which rely on either concept will have a ready-made framework to work in. --Matt Westwood 11:58, 15 November 2008 (UTC)

Page merge?
Might it be worth merging the different types of angles into this page as sub-pages, rather than have a different page for each one? Now I mention it, I'm not 100% sure it's a good thing to do - but what do you think? --Matt Westwood 13:02, 15 November 2008 (UTC)

Angles as equivalence classes
Is there a reference worthy approach somewhere that treats angles as equivalence classes? The equivalence relation being on $(\mathbb{R}^2)^3$. Likewise, for solid angles an equivalence relation on $(\mathbb{R}^3)^4$. --Jshflynn (talk) 17:50, 31 October 2012 (UTC)


 * I think I comprehend what you try to say. So $(x,y,z) \sim (x',y',z')$ iff the angles $yxz$ and $y'x'z'$ are equal. I haven't needed solid angles for a long time now, so I'm not entirely sure how you interpret $(\R^3)^4$. --Lord_Farin (talk) 19:54, 31 October 2012 (UTC)


 * Yes that's right. In the construction of my analysis notes I've been trying to avoid the inevitable. I dislike the analytic definition of sine and cosine because it conceals their motivation. Tracing it back, the motivation ultimately depends on the sin(x)/x theorem. For this we have the geometric proof. But that's where it becomes difficult (for me at least) to avoid circularity and synthetic geometry. Deciding on what the most fundamental thing is and then proceeding from there. I've been playing with this idea, the hypervolume axioms and adding in an axiom to do with isometries which is better when angles are defined like this. I don't want to cave in but I think I ultimately must to keep with my schedule. The analytic definition it is then... --Jshflynn (talk) 19:00, 1 November 2012 (UTC)