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SandBoxLorentzTransformation SandBoxObserverAsIdempotent SandBoxNijenhuis
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SandBox Idempotent Observers
  
last edited 7 years ago by Bill Page

Edit detail for SandBox Idempotent Observers revision 7 of 29
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Editor: Bill Page
Time: 2013/10/14 04:52:30 GMT+0
Note: Momentum 
removed:
-R:=vect [sqrt(r1^2+r2^2+r3^2+1),-r1,-r2,-r3];

changed:
-vect [1,0,0,0]
-dot(%,%)
R:=vect [1,0,0,0]
dot(R,R)

added:
RR:=tensor(-R,R)
SS:=map(Simplify,tensor(-S,S))
TT:=map(Simplify,tensor(-T,T))
UU:=map(Simplify,tensor(-U,U))
VV:=map(Simplify,tensor(-V,V))
map(Simplify, UU*VV)

added:
\begin{axiom}
--SS*TT+TT*SS-SS-TT;
--2/trace(%)*%
PP*RR+RR*PP-PP-RR;
2/trace(%)*%
SS*RR+RR*SS-SS-RR;
2/trace(%)*%
UU*RR+RR*UU-UU-RR;
map(Simplify,2/trace(%)*%)
UU*VV+VV*UU-UU-VV;
map(Simplify,2/trace(%)*%)
\end{axiom}

added:
\begin{axiom}
(PP*RR+RR*PP)/dot(P,R)-PP-RR;
1/trace(%)*%
--(SS*RR+RR*SS)/dot(S,R)-SS-RR;
--1/trace(%)*%
--(UU*VV+VV*UU)/dot(U,V)-UU-VV;
--1/trace(%)*%
(UU*RR+RR*UU)/dot(U,R)-UU-RR;
map(Simplify,1/trace(%)*%)
\end{axiom}

Mathematical Preliminaries

A vector is represented as a n\times 1 matrix (column vector)

fricas
Scalar := Expression Integer
\label{eq1}\hbox{\axiomType{Expression}\ } (\hbox{\axiomType{Integer}\ })(1)
Type: Type
fricas
vect(x:List Scalar):Matrix Scalar == matrix map(y+->[y],x)

   Function declaration vect : List(Expression(Integer)) -> Matrix(
      Expression(Integer)) has been added to workspace.
Type: Void
fricas
vect [a0,a1,a2,a3]
fricas
Compiling function vect with type List(Expression(Integer)) -> 
      Matrix(Expression(Integer))
\label{eq2}\left[ \begin{array}{c} a 0 \ a 1 \ a 2 \ a 3 (2)
Type: Matrix(Expression(Integer))

Identity

fricas
ID:=diagonalMatrix([1,1,1,1])
\label{eq3}\left[ \begin{array}{cccc} 1 & 0 & 0 & 0 \ 0 & 1 & 0 & 0 \ 0 & 0 & 1 & 0 \ 0 & 0 & 0 & 1 (3)
Type: Matrix(Integer)

Verification

fricas
htrigs2exp == rule
  cosh(a) == (exp(a)+exp(-a))/2
  sinh(a) == (exp(a)-exp(-a))/2
Type: Void
fricas
sinhcosh == rule
  ?c*exp(a)+?c*exp(-a) == 2*c*cosh(a)
  ?c*exp(a)-?c*exp(-a) == 2*c*sinh(a)
  ?c*exp(a-b)+?c*exp(b-a) == 2*c*cosh(a-b)
  ?c*exp(a-b)-?c*exp(b-a) == 2*c*sinh(a-b)
Type: Void
fricas
expandhtrigs == rule
  cosh(:x+y) == sinh(x)*sinh(y)+cosh(x)*cosh(y)
  sinh(:x+y) == cosh(x)*sinh(y)+sinh(x)*cosh(y)
  cosh(2*x) == 2*cosh(x)^2-1
  sinh(2*x) == 2*sinh(x)*cosh(x)
Type: Void
fricas
expandhtrigs2 == rule
  cosh(2*x+2*y) == 2*cosh(x+y)^2-1
  sinh(2*x+2*y) == 2*sinh(x+y)*cosh(x+y)
  cosh(2*x-2*y) == 2*cosh(x-y)^2-1
  sinh(2*x-2*y) == 2*sinh(x-y)*cosh(x-y)
Type: Void
fricas
Simplify(x:Scalar):Scalar == htrigs sinhcosh simplify htrigs2exp x

   Function declaration Simplify : Expression(Integer) -> Expression(
      Integer) has been added to workspace.
Type: Void
fricas
possible(x)==subst(x, map(y+->(y=(random(100) - random(100))),variables x) )
Type: Void
fricas
is?(eq:Equation Scalar):Boolean == (Simplify(lhs(eq)-rhs(eq))=0)::Boolean

   Function declaration is? : Equation(Expression(Integer)) -> Boolean 
      has been added to workspace.
Type: Void
fricas
Is?(eq:Equation(Matrix(Scalar))):Boolean == _
(map(Simplify,lhs(eq)-rhs(eq)) :: Matrix Expression AlgebraicNumber = _
zero(nrows(lhs(eq)),ncols(lhs(eq)))$Matrix Expression AlgebraicNumber )::Boolean

   Function declaration Is? : Equation(Matrix(Expression(Integer))) -> 
      Boolean has been added to workspace.
Type: Void

Lorentz Form (metric)

fricas
G:=diagonalMatrix [-1,1,1,1]
\label{eq4}\left[ \begin{array}{cccc} - 1 & 0 & 0 & 0 \ 0 & 1 & 0 & 0 \ 0 & 0 & 1 & 0 \ 0 & 0 & 0 & 1 (4)
Type: Matrix(Integer)

applied to a vector produces a co-vector (represent as a 1\times n matrix or row vector)

fricas
g(x) == transpose(x)*G
Type: Void
fricas
g(vect [a0,a1,a2,a3])
fricas
Compiling function g with type Matrix(Expression(Integer)) -> Matrix
      (Expression(Integer))
\label{eq5}\left[ \begin{array}{cccc} - a 0 & a 1 & a 2 & a 3 (5)
Type: Matrix(Expression(Integer))

Scalar product

fricas
dot(x,y) == (g(x)*y)::Scalar
Type: Void
fricas
dot(vect [a0,a1,a2,a3], vect [b0,b1,b2,b3])
fricas
Compiling function dot with type (Matrix(Expression(Integer)),Matrix
      (Expression(Integer))) -> Expression(Integer)
\label{eq6}{a 3 \ b 3}+{a 2 \ b 2}+{a 1 \ b 1}-{a 0 \ b 0}(6)
Type: Expression(Integer)

Tensor product

fricas
tensor(x,y) == x*g(y)
Type: Void
fricas
tensor(vect [a0,a1,a2,a3], vect [b0,b1,b2,b3])
fricas
Compiling function tensor with type (Matrix(Expression(Integer)),
      Matrix(Expression(Integer))) -> Matrix(Expression(Integer))
\label{eq7}\left[ \begin{array}{cccc} -{a 0 \ b 0}&{a 0 \ b 1}&{a 0 \ b 2}&{a 0 \ b 3} \ -{a 1 \ b 0}&{a 1 \ b 1}&{a 1 \ b 2}&{a 1 \ b 3} \ -{a 2 \ b 0}&{a 2 \ b 1}&{a 2 \ b 2}&{a 2 \ b 3} \ -{a 3 \ b 0}&{a 3 \ b 1}&{a 3 \ b 2}&{a 3 \ b 3} (7)
Type: Matrix(Expression(Integer))

Massive Objects

A material object (also referred to as an observer) is represented by a time-like 4-vector

fricas
P:=vect [sqrt(p1^2+p2^2+p3^2+1),-p1,-p2,-p3];
Type: Matrix(Expression(Integer))
fricas
dot(P,P)
\label{eq8}- 1(8)
Type: Expression(Integer)
fricas
Q:=vect [sqrt(q1^2+q2^2+q3^2+1),-q1,-q2,-q3];
Type: Matrix(Expression(Integer))
fricas
S:=1/sqrt(1-s1^2-s2^2-s3^2)*vect [1,-s1,-s2,-s3]
\label{eq9}\left[ \begin{array}{c} {1 \over{\sqrt{-{{s 3}^{2}}-{{s 2}^{2}}-{{s 1}^{2}}+ 1}}} \ -{s 1 \over{\sqrt{-{{s 3}^{2}}-{{s 2}^{2}}-{{s 1}^{2}}+ 1}}} \ -{s 2 \over{\sqrt{-{{s 3}^{2}}-{{s 2}^{2}}-{{s 1}^{2}}+ 1}}} \ -{s 3 \over{\sqrt{-{{s 3}^{2}}-{{s 2}^{2}}-{{s 1}^{2}}+ 1}}} (9)
Type: Matrix(Expression(Integer))
fricas
dot(S,S)
\label{eq10}- 1(10)
Type: Expression(Integer)
fricas
T:=1/sqrt(1-t1^2-t2^2-t3^2)*vect [1,-t1,-t2,-t3]
\label{eq11}\left[ \begin{array}{c} {1 \over{\sqrt{-{{t 3}^{2}}-{{t 2}^{2}}-{{t 1}^{2}}+ 1}}} \ -{t 1 \over{\sqrt{-{{t 3}^{2}}-{{t 2}^{2}}-{{t 1}^{2}}+ 1}}} \ -{t 2 \over{\sqrt{-{{t 3}^{2}}-{{t 2}^{2}}-{{t 1}^{2}}+ 1}}} \ -{t 3 \over{\sqrt{-{{t 3}^{2}}-{{t 2}^{2}}-{{t 1}^{2}}+ 1}}} (11)
Type: Matrix(Expression(Integer))
fricas
U:=vect [cosh(u),sinh(u),0,0]
\label{eq12}\left[ \begin{array}{c} {\cosh \left({u}\right)} \ {\sinh \left({u}\right)} \ 0 \ 0 (12)
Type: Matrix(Expression(Integer))
fricas
simplify dot(U,U)
\label{eq13}- 1(13)
Type: Expression(Integer)
fricas
V:=vect [cosh(v),sinh(v),0,0]
\label{eq14}\left[ \begin{array}{c} {\cosh \left({v}\right)} \ {\sinh \left({v}\right)} \ 0 \ 0 (14)
Type: Matrix(Expression(Integer))
fricas
Simplify dot(U,V)
fricas
Compiling body of rule htrigs2exp to compute value of type Ruleset(
      Integer,Integer,Expression(Integer))
fricas
Compiling body of rule sinhcosh to compute value of type Ruleset(
      Integer,Integer,Expression(Integer))
fricas
Compiling function Simplify with type Expression(Integer) -> 
      Expression(Integer)
\label{eq15}-{\cosh \left({v - u}\right)}(15)
Type: Expression(Integer)
fricas
W:=vect [cosh(w),0,sinh(w),0]
\label{eq16}\left[ \begin{array}{c} {\cosh \left({w}\right)} \ 0 \ {\sinh \left({w}\right)} \ 0 (16)
Type: Matrix(Expression(Integer))
fricas
Simplify dot(U,W)
\label{eq17}{-{\cosh \left({w + u}\right)}-{\cosh \left({w - u}\right)}}\over 2(17)
Type: Expression(Integer)

Observer "at rest"

fricas
R:=vect [1,0,0,0]
\label{eq18}\left[ \begin{array}{c} 1 \ 0 \ 0 \ 0 (18)
Type: Matrix(Expression(Integer))
fricas
dot(R,R)
\label{eq19}- 1(19)
Type: Expression(Integer)

Associated with each such vector is the orthogonal 3-d Euclidean subspace E_P =\{x | P \cdot x = 0\}

Relative Velocity

An object P has a unique relative velocity ω(P,Q) with respect to object Q given by

fricas
ω(P,Q)==-P/dot(P,Q)-Q
Type: Void
fricas
ω(P,Q)
fricas
Compiling function ω with type (Matrix(Expression(Integer)),Matrix(
      Expression(Integer))) -> Matrix(Expression(Integer))
\label{eq20}\left[ \begin{array}{c} {{{{\left({p 3 \ q 3}+{p 2 \ q 2}+{p 1 \ q 1}\right)}\ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}+{{\left(-{{q 3}^{2}}-{{q 2}^{2}}-{{q 1}^{2}}\right)}\ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}}\over{{{\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}\ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}-{p 3 \ q 3}-{p 2 \ q 2}-{p 1 \ q 1}}} \ {{{q 1 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}\ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}-{p 3 \ q 1 \ q 3}-{p 2 \ q 1 \ q 2}-{p 1 \ {{q 1}^{2}}}- p 1}\over{{{\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}\ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}-{p 3 \ q 3}-{p 2 \ q 2}-{p 1 \ q 1}}} \ {{{q 2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}\ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}-{p 3 \ q 2 \ q 3}-{p 2 \ {{q 2}^{2}}}-{p 1 \ q 1 \ q 2}- p 2}\over{{{\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}\ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}-{p 3 \ q 3}-{p 2 \ q 2}-{p 1 \ q 1}}} \ {{{q 3 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}\ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}-{p 3 \ {{q 3}^{2}}}+{{\left(-{p 2 \ q 2}-{p 1 \ q 1}\right)}\ q 3}- p 3}\over{{{\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}\ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}-{p 3 \ q 3}-{p 2 \ q 2}-{p 1 \ q 1}}} (20)
Type: Matrix(Expression(Integer))
fricas
ω(S,T)
\label{eq21}\left[ \begin{array}{c} {{{{t 3}^{2}}-{s 3 \ t 3}+{{t 2}^{2}}-{s 2 \ t 2}+{{t 1}^{2}}-{s 1 \ t 1}}\over{{\left({s 3 \ t 3}+{s 2 \ t 2}+{s 1 \ t 1}- 1 \right)}\ {\sqrt{-{{t 3}^{2}}-{{t 2}^{2}}-{{t 1}^{2}}+ 1}}}} \ {{-{s 1 \ {{t 3}^{2}}}+{s 3 \ t 1 \ t 3}-{s 1 \ {{t 2}^{2}}}+{s 2 \ t 1 \ t 2}- t 1 + s 1}\over{{\left({s 3 \ t 3}+{s 2 \ t 2}+{s 1 \ t 1}- 1 \right)}\ {\sqrt{-{{t 3}^{2}}-{{t 2}^{2}}-{{t 1}^{2}}+ 1}}}} \ {{-{s 2 \ {{t 3}^{2}}}+{s 3 \ t 2 \ t 3}+{{\left({s 1 \ t 1}- 1 \right)}\ t 2}-{s 2 \ {{t 1}^{2}}}+ s 2}\over{{\left({s 3 \ t 3}+{s 2 \ t 2}+{s 1 \ t 1}- 1 \right)}\ {\sqrt{-{{t 3}^{2}}-{{t 2}^{2}}-{{t 1}^{2}}+ 1}}}} \ {{{{\left({s 2 \ t 2}+{s 1 \ t 1}- 1 \right)}\ t 3}-{s 3 \ {{t 2}^{2}}}-{s 3 \ {{t 1}^{2}}}+ s 3}\over{{\left({s 3 \ t 3}+{s 2 \ t 2}+{s 1 \ t 1}- 1 \right)}\ {\sqrt{-{{t 3}^{2}}-{{t 2}^{2}}-{{t 1}^{2}}+ 1}}}} (21)
Type: Matrix(Expression(Integer))

Idempotent Observers

fricas
PP:=tensor(-P,P)
\label{eq22}\left[ \begin{array}{cccc} {{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}&{p 1 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}&{p 2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}&{p 3 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}} \ -{p 1 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}& -{{p 1}^{2}}& -{p 1 \ p 2}& -{p 1 \ p 3} \ -{p 2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}& -{p 1 \ p 2}& -{{p 2}^{2}}& -{p 2 \ p 3} \ -{p 3 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}& -{p 1 \ p 3}& -{p 2 \ p 3}& -{{p 3}^{2}} (22)
Type: Matrix(Expression(Integer))
fricas
Is?(PP*PP=PP)
fricas
Compiling function Is? with type Equation(Matrix(Expression(Integer)
      )) -> Boolean
\label{eq23} \mbox{\rm true} (23)
Type: Boolean
fricas
trace(PP)
\label{eq24}1(24)
Type: Expression(Integer)
fricas
QQ:=tensor(-Q,Q)
\label{eq25}\left[ \begin{array}{cccc} {{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}&{q 1 \ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}&{q 2 \ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}&{q 3 \ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}} \ -{q 1 \ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}& -{{q 1}^{2}}& -{q 1 \ q 2}& -{q 1 \ q 3} \ -{q 2 \ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}& -{q 1 \ q 2}& -{{q 2}^{2}}& -{q 2 \ q 3} \ -{q 3 \ {\sqrt{{{q 3}^{2}}+{{q 2}^{2}}+{{q 1}^{2}}+ 1}}}& -{q 1 \ q 3}& -{q 2 \ q 3}& -{{q 3}^{2}} (25)
Type: Matrix(Expression(Integer))
fricas
is?(trace(PP*QQ)=dot(P,Q)^2)
fricas
Compiling function is? with type Equation(Expression(Integer)) -> 
      Boolean
\label{eq26} \mbox{\rm true} (26)
Type: Boolean
fricas
Is?(PP*QQ*PP = trace(PP*QQ)@Scalar * PP)
\label{eq27} \mbox{\rm true} (27)
Type: Boolean
fricas
RR:=tensor(-R,R)
\label{eq28}\left[ \begin{array}{cccc} 1 & 0 & 0 & 0 \ 0 & 0 & 0 & 0 \ 0 & 0 & 0 & 0 \ 0 & 0 & 0 & 0 (28)
Type: Matrix(Expression(Integer))
fricas
SS:=map(Simplify,tensor(-S,S))
\label{eq29}\left[ \begin{array}{cccc} -{1 \over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}& -{s 1 \over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}& -{s 2 \over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}& -{s 3 \over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}} \ {s 1 \over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}&{{{s 1}^{2}}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}&{{s 1 \ s 2}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}&{{s 1 \ s 3}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}} \ {s 2 \over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}&{{s 1 \ s 2}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}&{{{s 2}^{2}}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}&{{s 2 \ s 3}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}} \ {s 3 \over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}&{{s 1 \ s 3}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}&{{s 2 \ s 3}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}}&{{{s 3}^{2}}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}- 1}} (29)
Type: Matrix(Expression(Integer))
fricas
TT:=map(Simplify,tensor(-T,T))
\label{eq30}\left[ \begin{array}{cccc} -{1 \over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}& -{t 1 \over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}& -{t 2 \over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}& -{t 3 \over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}} \ {t 1 \over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}&{{{t 1}^{2}}\over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}&{{t 1 \ t 2}\over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}&{{t 1 \ t 3}\over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}} \ {t 2 \over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}&{{t 1 \ t 2}\over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}&{{{t 2}^{2}}\over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}&{{t 2 \ t 3}\over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}} \ {t 3 \over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}&{{t 1 \ t 3}\over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}&{{t 2 \ t 3}\over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}}&{{{t 3}^{2}}\over{{{t 3}^{2}}+{{t 2}^{2}}+{{t 1}^{2}}- 1}} (30)
Type: Matrix(Expression(Integer))
fricas
UU:=map(Simplify,tensor(-U,U))
\label{eq31}\left[ \begin{array}{cccc} {{{\cosh \left({2 \ u}\right)}+ 1}\over 2}& -{{\sinh \left({2 \ u}\right)}\over 2}& 0 & 0 \ {{\sinh \left({2 \ u}\right)}\over 2}&{{-{\cosh \left({2 \ u}\right)}+ 1}\over 2}& 0 & 0 \ 0 & 0 & 0 & 0 \ 0 & 0 & 0 & 0 (31)
Type: Matrix(Expression(Integer))
fricas
VV:=map(Simplify,tensor(-V,V))
\label{eq32}\left[ \begin{array}{cccc} {{{\cosh \left({2 \ v}\right)}+ 1}\over 2}& -{{\sinh \left({2 \ v}\right)}\over 2}& 0 & 0 \ {{\sinh \left({2 \ v}\right)}\over 2}&{{-{\cosh \left({2 \ v}\right)}+ 1}\over 2}& 0 & 0 \ 0 & 0 & 0 & 0 \ 0 & 0 & 0 & 0 (32)
Type: Matrix(Expression(Integer))
fricas
map(Simplify, UU*VV)
\label{eq33}\left[ \begin{array}{cccc} {{{\cosh \left({2 \ v}\right)}+{\cosh \left({{2 \ v}-{2 \ u}}\right)}+{\cosh \left({2 \ u}\right)}+ 1}\over 4}&{{-{\sinh \left({2 \ v}\right)}-{\sinh \left({{2 \ v}-{2 \ u}}\right)}-{\sinh \left({2 \ u}\right)}}\over 4}& 0 & 0 \ {{{\sinh \left({2 \ v}\right)}-{\sinh \left({{2 \ v}-{2 \ u}}\right)}+{\sinh \left({2 \ u}\right)}}\over 4}&{{-{\cosh \left({2 \ v}\right)}+{\cosh \left({{2 \ v}-{2 \ u}}\right)}-{\cosh \left({2 \ u}\right)}+ 1}\over 4}& 0 & 0 \ 0 & 0 & 0 & 0 \ 0 & 0 & 0 & 0 (33)
Type: Matrix(Expression(Integer))

Unit

fricas
n:=map(Simplify,PP*QQ+QQ*PP-PP-QQ);
Type: Matrix(Expression(Integer))
fricas
N:=map(Simplify,2/trace(n)*n);
Type: Matrix(Expression(Integer))
fricas
Simplify trace N
\label{eq34}2(34)
Type: Expression(Integer)
fricas
Is?(N*N=N)
\label{eq35} \mbox{\rm true} (35)
Type: Boolean
fricas
Is?(PP*N=PP)
\label{eq36} \mbox{\rm true} (36)
Type: Boolean
fricas
Is?(QQ*N=QQ)
\label{eq37} \mbox{\rm true} (37)
Type: Boolean
fricas
Is?(N*PP=PP)
\label{eq38} \mbox{\rm true} (38)
Type: Boolean
fricas
Is?(N*QQ=QQ)
\label{eq39} \mbox{\rm true} (39)
Type: Boolean

fricas
--SS*TT+TT*SS-SS-TT;
--2/trace(%)*%
PP*RR+RR*PP-PP-RR;
Type: Matrix(Expression(Integer))
fricas
2/trace(%)*%
\label{eq40}\left[ \begin{array}{cccc} 1 & 0 & 0 & 0 \ 0 &{{{p 1}^{2}}\over{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}}}&{{p 1 \ p 2}\over{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}}}&{{p 1 \ p 3}\over{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}}} \ 0 &{{p 1 \ p 2}\over{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}}}&{{{p 2}^{2}}\over{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}}}&{{p 2 \ p 3}\over{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}}} \ 0 &{{p 1 \ p 3}\over{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}}}&{{p 2 \ p 3}\over{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}}}&{{{p 3}^{2}}\over{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}}} (40)
Type: Matrix(Expression(Integer))
fricas
SS*RR+RR*SS-SS-RR;
Type: Matrix(Expression(Integer))
fricas
2/trace(%)*%
\label{eq41}\left[ \begin{array}{cccc} 1 & 0 & 0 & 0 \ 0 &{{{s 1}^{2}}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}}}&{{s 1 \ s 2}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}}}&{{s 1 \ s 3}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}}} \ 0 &{{s 1 \ s 2}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}}}&{{{s 2}^{2}}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}}}&{{s 2 \ s 3}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}}} \ 0 &{{s 1 \ s 3}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}}}&{{s 2 \ s 3}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}}}&{{{s 3}^{2}}\over{{{s 3}^{2}}+{{s 2}^{2}}+{{s 1}^{2}}}} (41)
Type: Matrix(Expression(Integer))
fricas
UU*RR+RR*UU-UU-RR;
Type: Matrix(Expression(Integer))
fricas
map(Simplify,2/trace(%)*%)
\label{eq42}\left[ \begin{array}{cccc} 1 & 0 & 0 & 0 \ 0 & 1 & 0 & 0 \ 0 & 0 & 0 & 0 \ 0 & 0 & 0 & 0 (42)
Type: Matrix(Expression(Integer))
fricas
UU*VV+VV*UU-UU-VV;
Type: Matrix(Expression(Integer))
fricas
map(Simplify,2/trace(%)*%)
\label{eq43}\left[ \begin{array}{cccc} 1 & 0 & 0 & 0 \ 0 & 1 & 0 & 0 \ 0 & 0 & 0 & 0 \ 0 & 0 & 0 & 0 (43)
Type: Matrix(Expression(Integer))

Momentum

fricas
m:=(PP*QQ+QQ*PP)/dot(P,Q)-PP-QQ;
Type: Matrix(Expression(Integer))
fricas
M:=1/trace(m)*m;
Type: Matrix(Expression(Integer))
fricas
trace M
\label{eq44}1(44)
Type: Expression(Integer)
fricas
Is?(M*M=M)
\label{eq45} \mbox{\rm true} (45)
Type: Boolean

fricas
(PP*RR+RR*PP)/dot(P,R)-PP-RR;
Type: Matrix(Expression(Integer))
fricas
1/trace(%)*%
\label{eq46}\left[ \begin{array}{cccc} {{{{\left({{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 2 \right)}\ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}\over{{2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}}&{p 1 \over 2}&{p 2 \over 2}&{p 3 \over 2} \ -{p 1 \over 2}& -{{{{p 1}^{2}}\ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}\over{{2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}}& -{{p 1 \ p 2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}\over{{2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}}& -{{p 1 \ p 3 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}\over{{2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}} \ -{p 2 \over 2}& -{{p 1 \ p 2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}\over{{2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}}& -{{{{p 2}^{2}}\ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}\over{{2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}}& -{{p 2 \ p 3 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}\over{{2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}} \ -{p 3 \over 2}& -{{p 1 \ p 3 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}\over{{2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}}& -{{p 2 \ p 3 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}\over{{2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}}& -{{{{p 3}^{2}}\ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}\over{{2 \ {\sqrt{{{p 3}^{2}}+{{p 2}^{2}}+{{p 1}^{2}}+ 1}}}+{2 \ {{p 3}^{2}}}+{2 \ {{p 2}^{2}}}+{2 \ {{p 1}^{2}}}+ 2}} (46)
Type: Matrix(Expression(Integer))
fricas
--(SS*RR+RR*SS)/dot(S,R)-SS-RR;
--1/trace(%)*%
--(UU*VV+VV*UU)/dot(U,V)-UU-VV;
--1/trace(%)*%
(UU*RR+RR*UU)/dot(U,R)-UU-RR;
Type: Matrix(Expression(Integer))
fricas
map(Simplify,1/trace(%)*%)
\label{eq47}\left[ \begin{array}{cccc} {{{\cosh \left({3 \ u}\right)}+{4 \ {\cosh \left({2 \ u}\right)}}+{7 \ {\cosh \left({u}\right)}}+ 4}\over{{4 \ {\cosh \left({2 \ u}\right)}}+{8 \ {\cosh \left({u}\right)}}+ 4}}&{{-{\sinh \left({3 \ u}\right)}-{2 \ {\sinh \left({2 \ u}\right)}}-{\sinh \left({u}\right)}}\over{{4 \ {\cosh \left({2 \ u}\right)}}+{8 \ {\cosh \left({u}\right)}}+ 4}}& 0 & 0 \ {{{\sinh \left({3 \ u}\right)}+{2 \ {\sinh \left({2 \ u}\right)}}+{\sinh \left({u}\right)}}\over{{4 \ {\cosh \left({2 \ u}\right)}}+{8 \ {\cosh \left({u}\right)}}+ 4}}&{{-{\cosh \left({3 \ u}\right)}+{\cosh \left({u}\right)}}\over{{4 \ {\cosh \left({2 \ u}\right)}}+{8 \ {\cosh \left({u}\right)}}+ 4}}& 0 & 0 \ 0 & 0 & 0 & 0 \ 0 & 0 & 0 & 0 (47)
Type: Matrix(Expression(Integer))