Chapter 6. Maxwell Equations, Macroscopic Electromagnetism
Chapter 6. Maxwell Equations, Macroscopic Electromagnetism

Point set alignment - Department of Computer Science
Point set alignment - Department of Computer Science

Unit C2: Scheme of Work
Unit C2: Scheme of Work

Using MATLAB for Linear Algebra
Using MATLAB for Linear Algebra

How To Find the Electric Field for a Continuous Distribution of Charges
How To Find the Electric Field for a Continuous Distribution of Charges

NOTES ON LINEAR NON-AUTONOMOUS SYSTEMS 1. General
NOTES ON LINEAR NON-AUTONOMOUS SYSTEMS 1. General

... 1.2. Linear Nonhomogeneous Systems. Consider the linear nonhomogeneous system as in (1.1) ...
Lectures five and six
Lectures five and six

Classical Field Theory
Classical Field Theory

Massachusetts Institute of Technology
Massachusetts Institute of Technology

ME 102
ME 102

... • Scalars: Variables that represent single numbers. Note that complex numbers are also scalars, even though they have two components. • Arrays: Variables that represent more than one number. Each number is called an element of the array. Array operations allow operating on multiple numbers at once. ...
Fall 05 Exam 3 with Solutions
Fall 05 Exam 3 with Solutions

Sinha, B. K. and Saha, Rita.Optimal Weighing Designs with a String Property."
Sinha, B. K. and Saha, Rita.Optimal Weighing Designs with a String Property."

lecture 1 Definition : A real vector space is a set of elements V
lecture 1 Definition : A real vector space is a set of elements V

COURSE MATHEMATICAL METHODS OF PHYSICS.
COURSE MATHEMATICAL METHODS OF PHYSICS.

Minimal spanning and maximal independent sets, Basis
Minimal spanning and maximal independent sets, Basis

Navier-Stokes Equations
Navier-Stokes Equations

NOTES ON DUAL SPACES In these notes we introduce the notion
NOTES ON DUAL SPACES In these notes we introduce the notion

Refresher - UF Physics
Refresher - UF Physics

Gordon Brown Spring 2016 Background Notes for Quiver
Gordon Brown Spring 2016 Background Notes for Quiver

DOC - math for college
DOC - math for college

D - Personal Web Pages
D - Personal Web Pages

CHAPTER 2: Special Theory of Relativity
CHAPTER 2: Special Theory of Relativity

Question 1 - BrainMass
Question 1 - BrainMass

ECPOL: equations and MAtlAB tools for EC wave reflection and
ECPOL: equations and MAtlAB tools for EC wave reflection and

Topic 2: Systems of Linear Equations -
Topic 2: Systems of Linear Equations -

Four-vector

In the theory of relativity, a four-vector or 4-vector is a vector in Minkowski space, a four-dimensional real vector space. It differs from a Euclidean vector in how its magnitude is determined. The transformations that preserve this magnitude are the Lorentz transformations, which include spatial rotations, boosts (a change by a constant velocity to another inertial reference frame), and temporal and spatial inversions. Regarded as a homogeneous space, the transformation group of Minkowski space is the Poincaré group, which adds to the Lorentz group the group of translations. The Lorentz group may be represented by 4×4 matrices.The article considers four-vectors in the context of special relativity. Although the concept of four-vectors also extends to general relativity, some of the results stated in this article require modification in general relativity.