Sec 1.3 CC Geometry – Similar Figures
Sec 1.3 CC Geometry – Similar Figures

Chapter 2 Part 1 Notes
Chapter 2 Part 1 Notes

Lecture slides, Ch 2
Lecture slides, Ch 2

In the following statement, there is an issue of the `definition` of a
In the following statement, there is an issue of the `definition` of a

A Angles - Henri Picciotto
A Angles - Henri Picciotto

arc length, coterminal angles, radian, unit circle, odd function, even
arc length, coterminal angles, radian, unit circle, odd function, even

If two angles and the include side of one triangle
If two angles and the include side of one triangle

Classifying Triangles
Classifying Triangles

Measurement of Angles - New Age International
Measurement of Angles - New Age International

TOPIC 11
TOPIC 11

Geo Spring Practice Exam 2015
Geo Spring Practice Exam 2015

TRI 01 Worksheet HW 28 Name_____________ Geometry 2013
TRI 01 Worksheet HW 28 Name_____________ Geometry 2013

Summer Math Packet ‒ Entering Honors Geometry
Summer Math Packet ‒ Entering Honors Geometry

congruence criteria review 17a
congruence criteria review 17a

Special Parallelograms, part 1
Special Parallelograms, part 1

ExamView - 4.2 Triangle Sum Theorem Quiz.tst
ExamView - 4.2 Triangle Sum Theorem Quiz.tst

What is the definition of an isosceles triangle?
What is the definition of an isosceles triangle?

6.1
6.1

Practice Geometry A Final version A Multiple Choice 1. Which is an
Practice Geometry A Final version A Multiple Choice 1. Which is an

Document
Document

Is this a Quadrilateral?
Is this a Quadrilateral?

File
File

Wildwood School Summer 2009 Math Problem Set for Incoming
Wildwood School Summer 2009 Math Problem Set for Incoming

Pre-Learning - Mathematics Mastery
Pre-Learning - Mathematics Mastery

accelerated mathematics chapter 9 geometric
accelerated mathematics chapter 9 geometric

Euler angles



The Euler angles are three angles introduced by Leonhard Euler to describe the orientation of a rigid body. To describe such an orientation in 3-dimensional Euclidean space three parameters are required. They can be given in several ways, Euler angles being one of them; see charts on SO(3) for others. Euler angles are also used to describe the orientation of a frame of reference (typically, a coordinate system or basis) relative to another. They are typically denoted as α, β, γ, or φ, θ, ψ.Euler angles represent a sequence of three elemental rotations, i.e. rotations about the axes of a coordinate system. For instance, a first rotation about z by an angle α, a second rotation about x by an angle β, and a last rotation again about z, by an angle γ. These rotations start from a known standard orientation. In physics, this standard initial orientation is typically represented by a motionless (fixed, global, or world) coordinate system; in linear algebra, by a standard basis.Any orientation can be achieved by composing three elemental rotations. The elemental rotations can either occur about the axes of the fixed coordinate system (extrinsic rotations) or about the axes of a rotating coordinate system, which is initially aligned with the fixed one, and modifies its orientation after each elemental rotation (intrinsic rotations). The rotating coordinate system may be imagined to be rigidly attached to a rigid body. In this case, it is sometimes called a local coordinate system. Without considering the possibility of using two different conventions for the definition of the rotation axes (intrinsic or extrinsic), there exist twelve possible sequences of rotation axes, divided in two groups: Proper Euler angles (z-x-z, x-y-x, y-z-y, z-y-z, x-z-x, y-x-y) Tait–Bryan angles (x-y-z, y-z-x, z-x-y, x-z-y, z-y-x, y-x-z). Tait–Bryan angles are also called Cardan angles; nautical angles; heading, elevation, and bank; or yaw, pitch, and roll. Sometimes, both kinds of sequences are called ""Euler angles"". In that case, the sequences of the first group are called proper or classic Euler angles.