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Cayley's Matrix Notation
Checking whether or not a node has been previously definedMath notation and FontsDouble vertical bar notation“Where” notation in definitionNotation for multivariate normalWhich “bold” style is recommended for matrix notation?Math notation in LaTeX?Physics notationPercent notationSummation notation with an incrementUsing printeranswers environment, how to print solutions in the box without the title “Solutions”
6
Cayley used the following notation in his original paper
A Memoir on the Theory of Matrices 1
My attempt to reproduce the notation is shown below:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
begin{document}
scalebox{2.5}{parbox{0.3textwidth}{$$
renewcommandarraystretch{0}setlengtharraycolsep{0pt}
(mathrm{X}, mathrm{Y}, mathrm{Z}){=}lower10pthbox{$begin{array}{r@{}c@{,mkern10mu}c @{,mkern10mu}c@{,mkern10mu}c l}
( &a &b & c & )\
lvert& a' &b' & c' &rvert\
lvert& a'' & b'' & c'' & rvert\
end{array}$}mkern-6mu(x,y,z),
$$}}
end{document}
As you will observe the delimiters need to be improved. Any suggestions?
math-mode
asked 10 hours ago
Yiannis LazaridesYiannis Lazarides
93k21235516
add a comment |
6
Cayley used the following notation in his original paper
A Memoir on the Theory of Matrices 1
My attempt to reproduce the notation is shown below:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
begin{document}
scalebox{2.5}{parbox{0.3textwidth}{$$
renewcommandarraystretch{0}setlengtharraycolsep{0pt}
(mathrm{X}, mathrm{Y}, mathrm{Z}){=}lower10pthbox{$begin{array}{r@{}c@{,mkern10mu}c @{,mkern10mu}c@{,mkern10mu}c l}
( &a &b & c & )\
lvert& a' &b' & c' &rvert\
lvert& a'' & b'' & c'' & rvert\
end{array}$}mkern-6mu(x,y,z),
$$}}
end{document}
As you will observe the delimiters need to be improved. Any suggestions?
math-mode
asked 10 hours ago
Yiannis LazaridesYiannis Lazarides
93k21235516
is it just my eyes or am I right in thinking that on its own the () are symmetric pair but the overlapping )( symbol is using thinner more rounded )( to get more of an overlap so not using the matching parens for the outer borders of the matrices....
– David Carlisle
10 hours ago
more$(1,2,3between 4,5,6)$than$(1,2,3)!( 4,5,6)$
– David Carlisle
10 hours ago
@DavidCarlisle No it is the same thickness. There is a link to the Royal Society paper jstor.org/stable/pdf/108649.pdf
– Yiannis Lazarides
10 hours ago
Yes that is the link I used, I see egreg also usedbetweensee this image copied from that pdf, the overlapping brackets are not the same shape as the non-overlapping ones
– David Carlisle
1 hour ago
@DavidCarlisle I see what you mean,betweenis a better choice.
– Yiannis Lazarides
1 hour ago
add a comment |
6
6
6
2
Cayley used the following notation in his original paper
A Memoir on the Theory of Matrices 1
My attempt to reproduce the notation is shown below:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
begin{document}
scalebox{2.5}{parbox{0.3textwidth}{$$
renewcommandarraystretch{0}setlengtharraycolsep{0pt}
(mathrm{X}, mathrm{Y}, mathrm{Z}){=}lower10pthbox{$begin{array}{r@{}c@{,mkern10mu}c @{,mkern10mu}c@{,mkern10mu}c l}
( &a &b & c & )\
lvert& a' &b' & c' &rvert\
lvert& a'' & b'' & c'' & rvert\
end{array}$}mkern-6mu(x,y,z),
$$}}
end{document}
As you will observe the delimiters need to be improved. Any suggestions?
math-mode
asked 10 hours ago
Yiannis LazaridesYiannis Lazarides
93k21235516
Cayley used the following notation in his original paper
A Memoir on the Theory of Matrices 1
My attempt to reproduce the notation is shown below:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
begin{document}
scalebox{2.5}{parbox{0.3textwidth}{$$
renewcommandarraystretch{0}setlengtharraycolsep{0pt}
(mathrm{X}, mathrm{Y}, mathrm{Z}){=}lower10pthbox{$begin{array}{r@{}c@{,mkern10mu}c @{,mkern10mu}c@{,mkern10mu}c l}
( &a &b & c & )\
lvert& a' &b' & c' &rvert\
lvert& a'' & b'' & c'' & rvert\
end{array}$}mkern-6mu(x,y,z),
$$}}
end{document}
As you will observe the delimiters need to be improved. Any suggestions?
math-mode
math-mode
asked 10 hours ago
Yiannis LazaridesYiannis Lazarides
93k21235516
asked 10 hours ago
Yiannis LazaridesYiannis Lazarides
93k21235516
asked 10 hours ago
Yiannis LazaridesYiannis Lazarides
93k21235516
asked 10 hours ago
Yiannis LazaridesYiannis Lazarides
93k21235516
asked 10 hours ago
Yiannis LazaridesYiannis Lazarides
93k21235516
93k21235516
is it just my eyes or am I right in thinking that on its own the () are symmetric pair but the overlapping )( symbol is using thinner more rounded )( to get more of an overlap so not using the matching parens for the outer borders of the matrices....
– David Carlisle
10 hours ago
more$(1,2,3between 4,5,6)$than$(1,2,3)!( 4,5,6)$
– David Carlisle
10 hours ago
@DavidCarlisle No it is the same thickness. There is a link to the Royal Society paper jstor.org/stable/pdf/108649.pdf
– Yiannis Lazarides
10 hours ago
Yes that is the link I used, I see egreg also usedbetweensee this image copied from that pdf, the overlapping brackets are not the same shape as the non-overlapping ones
– David Carlisle
1 hour ago
@DavidCarlisle I see what you mean,betweenis a better choice.
– Yiannis Lazarides
1 hour ago
add a comment |
is it just my eyes or am I right in thinking that on its own the () are symmetric pair but the overlapping )( symbol is using thinner more rounded )( to get more of an overlap so not using the matching parens for the outer borders of the matrices....
– David Carlisle
10 hours ago
more$(1,2,3between 4,5,6)$than$(1,2,3)!( 4,5,6)$
– David Carlisle
10 hours ago
@DavidCarlisle No it is the same thickness. There is a link to the Royal Society paper jstor.org/stable/pdf/108649.pdf
– Yiannis Lazarides
10 hours ago
Yes that is the link I used, I see egreg also usedbetweensee this image copied from that pdf, the overlapping brackets are not the same shape as the non-overlapping ones
– David Carlisle
1 hour ago
@DavidCarlisle I see what you mean,betweenis a better choice.
– Yiannis Lazarides
1 hour ago
is it just my eyes or am I right in thinking that on its own the () are symmetric pair but the overlapping )( symbol is using thinner more rounded )( to get more of an overlap so not using the matching parens for the outer borders of the matrices....
– David Carlisle
10 hours ago
is it just my eyes or am I right in thinking that on its own the () are symmetric pair but the overlapping )( symbol is using thinner more rounded )( to get more of an overlap so not using the matching parens for the outer borders of the matrices....
– David Carlisle
10 hours ago
more
$(1,2,3between 4,5,6)$ than $(1,2,3)!( 4,5,6)$– David Carlisle
10 hours ago
more
$(1,2,3between 4,5,6)$ than $(1,2,3)!( 4,5,6)$– David Carlisle
10 hours ago
@DavidCarlisle No it is the same thickness. There is a link to the Royal Society paper jstor.org/stable/pdf/108649.pdf
– Yiannis Lazarides
10 hours ago
@DavidCarlisle No it is the same thickness. There is a link to the Royal Society paper jstor.org/stable/pdf/108649.pdf
– Yiannis Lazarides
10 hours ago
Yes that is the link I used, I see egreg also used
between see this image copied from that pdf, the overlapping brackets are not the same shape as the non-overlapping ones– David Carlisle
1 hour ago
Yes that is the link I used, I see egreg also used
between see this image copied from that pdf, the overlapping brackets are not the same shape as the non-overlapping ones– David Carlisle
1 hour ago
@DavidCarlisle I see what you mean,
between is a better choice.– Yiannis Lazarides
1 hour ago
@DavidCarlisle I see what you mean,
between is a better choice.– Yiannis Lazarides
1 hour ago
add a comment |
4 Answers
4
active
oldest
votes
4
My proposal:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
DeclareMathSymbol{A}{mathalpha}{operators}{`A}
DeclareMathSymbol{B}{mathalpha}{operators}{`B}
DeclareMathSymbol{C}{mathalpha}{operators}{`C}
DeclareMathSymbol{D}{mathalpha}{operators}{`D}
DeclareMathSymbol{E}{mathalpha}{operators}{`E}
DeclareMathSymbol{F}{mathalpha}{operators}{`F}
DeclareMathSymbol{G}{mathalpha}{operators}{`G}
DeclareMathSymbol{H}{mathalpha}{operators}{`H}
DeclareMathSymbol{I}{mathalpha}{operators}{`I}
DeclareMathSymbol{J}{mathalpha}{operators}{`J}
DeclareMathSymbol{K}{mathalpha}{operators}{`K}
DeclareMathSymbol{L}{mathalpha}{operators}{`L}
DeclareMathSymbol{M}{mathalpha}{operators}{`M}
DeclareMathSymbol{N}{mathalpha}{operators}{`N}
DeclareMathSymbol{O}{mathalpha}{operators}{`O}
DeclareMathSymbol{P}{mathalpha}{operators}{`P}
DeclareMathSymbol{Q}{mathalpha}{operators}{`Q}
DeclareMathSymbol{R}{mathalpha}{operators}{`R}
DeclareMathSymbol{S}{mathalpha}{operators}{`S}
DeclareMathSymbol{T}{mathalpha}{operators}{`T}
DeclareMathSymbol{U}{mathalpha}{operators}{`U}
DeclareMathSymbol{V}{mathalpha}{operators}{`V}
DeclareMathSymbol{W}{mathalpha}{operators}{`W}
DeclareMathSymbol{X}{mathalpha}{operators}{`X}
DeclareMathSymbol{Y}{mathalpha}{operators}{`Y}
DeclareMathSymbol{Z}{mathalpha}{operators}{`Z}
newsavebox{cayleybox}
newlength{cayleyheight}
newenvironment{cayleymatrix}[1]
{begin{lrbox}{cayleybox}
$begin{array}{@{enspace}l*{numexpr#1-1}{@{{,}enspace}l}@{enspace}}}
{end{array}$end{lrbox}%
setlength{cayleyheight}{dimexprhtcayleybox+dpcayleybox}%
kern-0.8pt
vtop to cayleyheight{hbox{vphantom{$between$}}leadersvrulevfill}%
raisebox{dimexprhtstrutbox-htcayleybox}{useboxcayleybox}%
vtop to cayleyheight{hbox{vphantom{$between$}}leadersvrulevfill}%
kern-0.8pt
}
newcommand{by}{kern-0.4pt{between}kern-0.4pt}
thinmuskip=6mu
medmuskip=0mu
thickmuskip=0mu
begin{document}
[ % page 17
(X,Y,Z)=
(begin{cayleymatrix}{3}
a & b & c \
a' & b' & c' \
a'' & b'' & c''
end{cayleymatrix}
by x,y,z)
]
[ % page 32
(begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix} )
=
bigl(
(begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix}by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix})
bigr)^2
]
end{document}
answered 8 hours ago
egregegreg
737k8919363264
add a comment |
4
A TikZ proposal. Similarly to Andrew's nice answer you can focus on typing the matrix.
documentclass{article}
usepackage{tikz}
makeatletter% https://tex.stackexchange.com/a/85531/121799
longdefifnodedefined#1#2#3{%
@ifundefined{pgf@sh@ns@#1}{#3}{#2}%
}
makeatother
newcounter{CM}
usetikzlibrary{matrix}
newcommand{CayleyMatrix}[2][]{stepcounter{CM}%
begin{tikzpicture}[baseline=(mat-numbervalue{CM}-1-1.base),inner sep=2pt,#1]
matrix[matrix of math nodes,ampersand replacement=&] (mat-numbervalue{CM})
{ #2
};
ifnodedefined{mat-numbervalue{CM}-2-1}{%
draw[semithick] (mat-numbervalue{CM}.south west) -- (mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.south) to[out=135,in=-135]
(mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.north)
(mat-numbervalue{CM}.south east) -- (mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.south) to[out=45,in=-45]
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.north) ;}{
draw[semithick] (mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.south) to[out=135,in=-135]
(mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.north)
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.south) to[out=45,in=-45]
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.north) ;
}
end{tikzpicture}}
begin{document}
[CayleyMatrix{
X &Y & Z \
}=CayleyMatrix{
a &b & c \
a' &b' & c' \
a'' & b'' & c'' \
}!!CayleyMatrix{
x &y & z \
}]
end{document}
answered 8 hours ago
marmotmarmot
121k6158296
add a comment |
3
Extending Bernard's idea slightly:
...but not quite up to the standards of egreg's nice solution:)
documentclass{article}
usepackage{array}
newcounter{cayley}
newcolumntype{L}{>{stepcounter{cayley}%
ifnumvalue{cayley}=1raisebox{-0.4ex}{(}kern0.5exelsevlinefi}c@{}}
newcolumntype{R}{@{}c<{spaceifnumvalue{cayley}=1kern0.5exraisebox{-0.4ex}{)}elsevlinefi}}
newenvironment{cayley}[1][3]{setcounter{cayley}{0}array{L*{#1}{c}R}}{endarray}
begin{document}
[
begin{cayley}
&a & b & c &\
&a' & b' & c' &\
&a''& b''& c''&\
end{cayley}
qquad
begin{cayley}[4]
&a & b & c & d &\
&a' & b' & c' & d' &\
&a''& b''& c''& d''&\
end{cayley}
]
end{document}
answered 8 hours ago
AndrewAndrew
31.4k34483
add a comment |
2
Here is an approximation, with basic commands:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
begin{document}
[ begin{array}{c@{}ccc@{}c}
(mkern 4.2mu{} & a &b & c &mkern 4.2mu)\[-0.31ex]
vline & a' &b' & c' & vline \
vline & a'' &b'' & c''& vline
end{array} ]%
end{document}
answered 9 hours ago
BernardBernard
177k779211
add a comment |
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4 Answers
4
active
oldest
votes
4 Answers
4
active
oldest
votes
active
oldest
votes
active
oldest
votes
4
My proposal:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
DeclareMathSymbol{A}{mathalpha}{operators}{`A}
DeclareMathSymbol{B}{mathalpha}{operators}{`B}
DeclareMathSymbol{C}{mathalpha}{operators}{`C}
DeclareMathSymbol{D}{mathalpha}{operators}{`D}
DeclareMathSymbol{E}{mathalpha}{operators}{`E}
DeclareMathSymbol{F}{mathalpha}{operators}{`F}
DeclareMathSymbol{G}{mathalpha}{operators}{`G}
DeclareMathSymbol{H}{mathalpha}{operators}{`H}
DeclareMathSymbol{I}{mathalpha}{operators}{`I}
DeclareMathSymbol{J}{mathalpha}{operators}{`J}
DeclareMathSymbol{K}{mathalpha}{operators}{`K}
DeclareMathSymbol{L}{mathalpha}{operators}{`L}
DeclareMathSymbol{M}{mathalpha}{operators}{`M}
DeclareMathSymbol{N}{mathalpha}{operators}{`N}
DeclareMathSymbol{O}{mathalpha}{operators}{`O}
DeclareMathSymbol{P}{mathalpha}{operators}{`P}
DeclareMathSymbol{Q}{mathalpha}{operators}{`Q}
DeclareMathSymbol{R}{mathalpha}{operators}{`R}
DeclareMathSymbol{S}{mathalpha}{operators}{`S}
DeclareMathSymbol{T}{mathalpha}{operators}{`T}
DeclareMathSymbol{U}{mathalpha}{operators}{`U}
DeclareMathSymbol{V}{mathalpha}{operators}{`V}
DeclareMathSymbol{W}{mathalpha}{operators}{`W}
DeclareMathSymbol{X}{mathalpha}{operators}{`X}
DeclareMathSymbol{Y}{mathalpha}{operators}{`Y}
DeclareMathSymbol{Z}{mathalpha}{operators}{`Z}
newsavebox{cayleybox}
newlength{cayleyheight}
newenvironment{cayleymatrix}[1]
{begin{lrbox}{cayleybox}
$begin{array}{@{enspace}l*{numexpr#1-1}{@{{,}enspace}l}@{enspace}}}
{end{array}$end{lrbox}%
setlength{cayleyheight}{dimexprhtcayleybox+dpcayleybox}%
kern-0.8pt
vtop to cayleyheight{hbox{vphantom{$between$}}leadersvrulevfill}%
raisebox{dimexprhtstrutbox-htcayleybox}{useboxcayleybox}%
vtop to cayleyheight{hbox{vphantom{$between$}}leadersvrulevfill}%
kern-0.8pt
}
newcommand{by}{kern-0.4pt{between}kern-0.4pt}
thinmuskip=6mu
medmuskip=0mu
thickmuskip=0mu
begin{document}
[ % page 17
(X,Y,Z)=
(begin{cayleymatrix}{3}
a & b & c \
a' & b' & c' \
a'' & b'' & c''
end{cayleymatrix}
by x,y,z)
]
[ % page 32
(begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix} )
=
bigl(
(begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix}by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix})
bigr)^2
]
end{document}
answered 8 hours ago
egregegreg
737k8919363264
add a comment |
4
My proposal:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
DeclareMathSymbol{A}{mathalpha}{operators}{`A}
DeclareMathSymbol{B}{mathalpha}{operators}{`B}
DeclareMathSymbol{C}{mathalpha}{operators}{`C}
DeclareMathSymbol{D}{mathalpha}{operators}{`D}
DeclareMathSymbol{E}{mathalpha}{operators}{`E}
DeclareMathSymbol{F}{mathalpha}{operators}{`F}
DeclareMathSymbol{G}{mathalpha}{operators}{`G}
DeclareMathSymbol{H}{mathalpha}{operators}{`H}
DeclareMathSymbol{I}{mathalpha}{operators}{`I}
DeclareMathSymbol{J}{mathalpha}{operators}{`J}
DeclareMathSymbol{K}{mathalpha}{operators}{`K}
DeclareMathSymbol{L}{mathalpha}{operators}{`L}
DeclareMathSymbol{M}{mathalpha}{operators}{`M}
DeclareMathSymbol{N}{mathalpha}{operators}{`N}
DeclareMathSymbol{O}{mathalpha}{operators}{`O}
DeclareMathSymbol{P}{mathalpha}{operators}{`P}
DeclareMathSymbol{Q}{mathalpha}{operators}{`Q}
DeclareMathSymbol{R}{mathalpha}{operators}{`R}
DeclareMathSymbol{S}{mathalpha}{operators}{`S}
DeclareMathSymbol{T}{mathalpha}{operators}{`T}
DeclareMathSymbol{U}{mathalpha}{operators}{`U}
DeclareMathSymbol{V}{mathalpha}{operators}{`V}
DeclareMathSymbol{W}{mathalpha}{operators}{`W}
DeclareMathSymbol{X}{mathalpha}{operators}{`X}
DeclareMathSymbol{Y}{mathalpha}{operators}{`Y}
DeclareMathSymbol{Z}{mathalpha}{operators}{`Z}
newsavebox{cayleybox}
newlength{cayleyheight}
newenvironment{cayleymatrix}[1]
{begin{lrbox}{cayleybox}
$begin{array}{@{enspace}l*{numexpr#1-1}{@{{,}enspace}l}@{enspace}}}
{end{array}$end{lrbox}%
setlength{cayleyheight}{dimexprhtcayleybox+dpcayleybox}%
kern-0.8pt
vtop to cayleyheight{hbox{vphantom{$between$}}leadersvrulevfill}%
raisebox{dimexprhtstrutbox-htcayleybox}{useboxcayleybox}%
vtop to cayleyheight{hbox{vphantom{$between$}}leadersvrulevfill}%
kern-0.8pt
}
newcommand{by}{kern-0.4pt{between}kern-0.4pt}
thinmuskip=6mu
medmuskip=0mu
thickmuskip=0mu
begin{document}
[ % page 17
(X,Y,Z)=
(begin{cayleymatrix}{3}
a & b & c \
a' & b' & c' \
a'' & b'' & c''
end{cayleymatrix}
by x,y,z)
]
[ % page 32
(begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix} )
=
bigl(
(begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix}by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix})
bigr)^2
]
end{document}
answered 8 hours ago
egregegreg
737k8919363264
add a comment |
4
4
4
My proposal:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
DeclareMathSymbol{A}{mathalpha}{operators}{`A}
DeclareMathSymbol{B}{mathalpha}{operators}{`B}
DeclareMathSymbol{C}{mathalpha}{operators}{`C}
DeclareMathSymbol{D}{mathalpha}{operators}{`D}
DeclareMathSymbol{E}{mathalpha}{operators}{`E}
DeclareMathSymbol{F}{mathalpha}{operators}{`F}
DeclareMathSymbol{G}{mathalpha}{operators}{`G}
DeclareMathSymbol{H}{mathalpha}{operators}{`H}
DeclareMathSymbol{I}{mathalpha}{operators}{`I}
DeclareMathSymbol{J}{mathalpha}{operators}{`J}
DeclareMathSymbol{K}{mathalpha}{operators}{`K}
DeclareMathSymbol{L}{mathalpha}{operators}{`L}
DeclareMathSymbol{M}{mathalpha}{operators}{`M}
DeclareMathSymbol{N}{mathalpha}{operators}{`N}
DeclareMathSymbol{O}{mathalpha}{operators}{`O}
DeclareMathSymbol{P}{mathalpha}{operators}{`P}
DeclareMathSymbol{Q}{mathalpha}{operators}{`Q}
DeclareMathSymbol{R}{mathalpha}{operators}{`R}
DeclareMathSymbol{S}{mathalpha}{operators}{`S}
DeclareMathSymbol{T}{mathalpha}{operators}{`T}
DeclareMathSymbol{U}{mathalpha}{operators}{`U}
DeclareMathSymbol{V}{mathalpha}{operators}{`V}
DeclareMathSymbol{W}{mathalpha}{operators}{`W}
DeclareMathSymbol{X}{mathalpha}{operators}{`X}
DeclareMathSymbol{Y}{mathalpha}{operators}{`Y}
DeclareMathSymbol{Z}{mathalpha}{operators}{`Z}
newsavebox{cayleybox}
newlength{cayleyheight}
newenvironment{cayleymatrix}[1]
{begin{lrbox}{cayleybox}
$begin{array}{@{enspace}l*{numexpr#1-1}{@{{,}enspace}l}@{enspace}}}
{end{array}$end{lrbox}%
setlength{cayleyheight}{dimexprhtcayleybox+dpcayleybox}%
kern-0.8pt
vtop to cayleyheight{hbox{vphantom{$between$}}leadersvrulevfill}%
raisebox{dimexprhtstrutbox-htcayleybox}{useboxcayleybox}%
vtop to cayleyheight{hbox{vphantom{$between$}}leadersvrulevfill}%
kern-0.8pt
}
newcommand{by}{kern-0.4pt{between}kern-0.4pt}
thinmuskip=6mu
medmuskip=0mu
thickmuskip=0mu
begin{document}
[ % page 17
(X,Y,Z)=
(begin{cayleymatrix}{3}
a & b & c \
a' & b' & c' \
a'' & b'' & c''
end{cayleymatrix}
by x,y,z)
]
[ % page 32
(begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix} )
=
bigl(
(begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix}by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix})
bigr)^2
]
end{document}
answered 8 hours ago
egregegreg
737k8919363264
My proposal:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
DeclareMathSymbol{A}{mathalpha}{operators}{`A}
DeclareMathSymbol{B}{mathalpha}{operators}{`B}
DeclareMathSymbol{C}{mathalpha}{operators}{`C}
DeclareMathSymbol{D}{mathalpha}{operators}{`D}
DeclareMathSymbol{E}{mathalpha}{operators}{`E}
DeclareMathSymbol{F}{mathalpha}{operators}{`F}
DeclareMathSymbol{G}{mathalpha}{operators}{`G}
DeclareMathSymbol{H}{mathalpha}{operators}{`H}
DeclareMathSymbol{I}{mathalpha}{operators}{`I}
DeclareMathSymbol{J}{mathalpha}{operators}{`J}
DeclareMathSymbol{K}{mathalpha}{operators}{`K}
DeclareMathSymbol{L}{mathalpha}{operators}{`L}
DeclareMathSymbol{M}{mathalpha}{operators}{`M}
DeclareMathSymbol{N}{mathalpha}{operators}{`N}
DeclareMathSymbol{O}{mathalpha}{operators}{`O}
DeclareMathSymbol{P}{mathalpha}{operators}{`P}
DeclareMathSymbol{Q}{mathalpha}{operators}{`Q}
DeclareMathSymbol{R}{mathalpha}{operators}{`R}
DeclareMathSymbol{S}{mathalpha}{operators}{`S}
DeclareMathSymbol{T}{mathalpha}{operators}{`T}
DeclareMathSymbol{U}{mathalpha}{operators}{`U}
DeclareMathSymbol{V}{mathalpha}{operators}{`V}
DeclareMathSymbol{W}{mathalpha}{operators}{`W}
DeclareMathSymbol{X}{mathalpha}{operators}{`X}
DeclareMathSymbol{Y}{mathalpha}{operators}{`Y}
DeclareMathSymbol{Z}{mathalpha}{operators}{`Z}
newsavebox{cayleybox}
newlength{cayleyheight}
newenvironment{cayleymatrix}[1]
{begin{lrbox}{cayleybox}
$begin{array}{@{enspace}l*{numexpr#1-1}{@{{,}enspace}l}@{enspace}}}
{end{array}$end{lrbox}%
setlength{cayleyheight}{dimexprhtcayleybox+dpcayleybox}%
kern-0.8pt
vtop to cayleyheight{hbox{vphantom{$between$}}leadersvrulevfill}%
raisebox{dimexprhtstrutbox-htcayleybox}{useboxcayleybox}%
vtop to cayleyheight{hbox{vphantom{$between$}}leadersvrulevfill}%
kern-0.8pt
}
newcommand{by}{kern-0.4pt{between}kern-0.4pt}
thinmuskip=6mu
medmuskip=0mu
thickmuskip=0mu
begin{document}
[ % page 17
(X,Y,Z)=
(begin{cayleymatrix}{3}
a & b & c \
a' & b' & c' \
a'' & b'' & c''
end{cayleymatrix}
by x,y,z)
]
[ % page 32
(begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix} by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix} )
=
bigl(
(begin{cayleymatrix}{2} a & c \ b & d end{cayleymatrix}by
begin{cayleymatrix}{2} a & b \ c & d end{cayleymatrix})
bigr)^2
]
end{document}
answered 8 hours ago
egregegreg
737k8919363264
answered 8 hours ago
egregegreg
737k8919363264
answered 8 hours ago
egregegreg
737k8919363264
answered 8 hours ago
egregegreg
737k8919363264
737k8919363264
add a comment |
add a comment |
4
A TikZ proposal. Similarly to Andrew's nice answer you can focus on typing the matrix.
documentclass{article}
usepackage{tikz}
makeatletter% https://tex.stackexchange.com/a/85531/121799
longdefifnodedefined#1#2#3{%
@ifundefined{pgf@sh@ns@#1}{#3}{#2}%
}
makeatother
newcounter{CM}
usetikzlibrary{matrix}
newcommand{CayleyMatrix}[2][]{stepcounter{CM}%
begin{tikzpicture}[baseline=(mat-numbervalue{CM}-1-1.base),inner sep=2pt,#1]
matrix[matrix of math nodes,ampersand replacement=&] (mat-numbervalue{CM})
{ #2
};
ifnodedefined{mat-numbervalue{CM}-2-1}{%
draw[semithick] (mat-numbervalue{CM}.south west) -- (mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.south) to[out=135,in=-135]
(mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.north)
(mat-numbervalue{CM}.south east) -- (mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.south) to[out=45,in=-45]
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.north) ;}{
draw[semithick] (mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.south) to[out=135,in=-135]
(mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.north)
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.south) to[out=45,in=-45]
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.north) ;
}
end{tikzpicture}}
begin{document}
[CayleyMatrix{
X &Y & Z \
}=CayleyMatrix{
a &b & c \
a' &b' & c' \
a'' & b'' & c'' \
}!!CayleyMatrix{
x &y & z \
}]
end{document}
answered 8 hours ago
marmotmarmot
121k6158296
add a comment |
4
A TikZ proposal. Similarly to Andrew's nice answer you can focus on typing the matrix.
documentclass{article}
usepackage{tikz}
makeatletter% https://tex.stackexchange.com/a/85531/121799
longdefifnodedefined#1#2#3{%
@ifundefined{pgf@sh@ns@#1}{#3}{#2}%
}
makeatother
newcounter{CM}
usetikzlibrary{matrix}
newcommand{CayleyMatrix}[2][]{stepcounter{CM}%
begin{tikzpicture}[baseline=(mat-numbervalue{CM}-1-1.base),inner sep=2pt,#1]
matrix[matrix of math nodes,ampersand replacement=&] (mat-numbervalue{CM})
{ #2
};
ifnodedefined{mat-numbervalue{CM}-2-1}{%
draw[semithick] (mat-numbervalue{CM}.south west) -- (mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.south) to[out=135,in=-135]
(mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.north)
(mat-numbervalue{CM}.south east) -- (mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.south) to[out=45,in=-45]
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.north) ;}{
draw[semithick] (mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.south) to[out=135,in=-135]
(mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.north)
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.south) to[out=45,in=-45]
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.north) ;
}
end{tikzpicture}}
begin{document}
[CayleyMatrix{
X &Y & Z \
}=CayleyMatrix{
a &b & c \
a' &b' & c' \
a'' & b'' & c'' \
}!!CayleyMatrix{
x &y & z \
}]
end{document}
answered 8 hours ago
marmotmarmot
121k6158296
add a comment |
4
4
4
A TikZ proposal. Similarly to Andrew's nice answer you can focus on typing the matrix.
documentclass{article}
usepackage{tikz}
makeatletter% https://tex.stackexchange.com/a/85531/121799
longdefifnodedefined#1#2#3{%
@ifundefined{pgf@sh@ns@#1}{#3}{#2}%
}
makeatother
newcounter{CM}
usetikzlibrary{matrix}
newcommand{CayleyMatrix}[2][]{stepcounter{CM}%
begin{tikzpicture}[baseline=(mat-numbervalue{CM}-1-1.base),inner sep=2pt,#1]
matrix[matrix of math nodes,ampersand replacement=&] (mat-numbervalue{CM})
{ #2
};
ifnodedefined{mat-numbervalue{CM}-2-1}{%
draw[semithick] (mat-numbervalue{CM}.south west) -- (mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.south) to[out=135,in=-135]
(mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.north)
(mat-numbervalue{CM}.south east) -- (mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.south) to[out=45,in=-45]
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.north) ;}{
draw[semithick] (mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.south) to[out=135,in=-135]
(mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.north)
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.south) to[out=45,in=-45]
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.north) ;
}
end{tikzpicture}}
begin{document}
[CayleyMatrix{
X &Y & Z \
}=CayleyMatrix{
a &b & c \
a' &b' & c' \
a'' & b'' & c'' \
}!!CayleyMatrix{
x &y & z \
}]
end{document}
answered 8 hours ago
marmotmarmot
121k6158296
A TikZ proposal. Similarly to Andrew's nice answer you can focus on typing the matrix.
documentclass{article}
usepackage{tikz}
makeatletter% https://tex.stackexchange.com/a/85531/121799
longdefifnodedefined#1#2#3{%
@ifundefined{pgf@sh@ns@#1}{#3}{#2}%
}
makeatother
newcounter{CM}
usetikzlibrary{matrix}
newcommand{CayleyMatrix}[2][]{stepcounter{CM}%
begin{tikzpicture}[baseline=(mat-numbervalue{CM}-1-1.base),inner sep=2pt,#1]
matrix[matrix of math nodes,ampersand replacement=&] (mat-numbervalue{CM})
{ #2
};
ifnodedefined{mat-numbervalue{CM}-2-1}{%
draw[semithick] (mat-numbervalue{CM}.south west) -- (mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.south) to[out=135,in=-135]
(mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.north)
(mat-numbervalue{CM}.south east) -- (mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.south) to[out=45,in=-45]
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.north) ;}{
draw[semithick] (mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.south) to[out=135,in=-135]
(mat-numbervalue{CM}.south west|-mat-numbervalue{CM}-1-1.north)
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.south) to[out=45,in=-45]
(mat-numbervalue{CM}.south east|-mat-numbervalue{CM}-1-1.north) ;
}
end{tikzpicture}}
begin{document}
[CayleyMatrix{
X &Y & Z \
}=CayleyMatrix{
a &b & c \
a' &b' & c' \
a'' & b'' & c'' \
}!!CayleyMatrix{
x &y & z \
}]
end{document}
answered 8 hours ago
marmotmarmot
121k6158296
answered 8 hours ago
marmotmarmot
121k6158296
answered 8 hours ago
marmotmarmot
121k6158296
answered 8 hours ago
marmotmarmot
121k6158296
121k6158296
add a comment |
add a comment |
3
Extending Bernard's idea slightly:
...but not quite up to the standards of egreg's nice solution:)
documentclass{article}
usepackage{array}
newcounter{cayley}
newcolumntype{L}{>{stepcounter{cayley}%
ifnumvalue{cayley}=1raisebox{-0.4ex}{(}kern0.5exelsevlinefi}c@{}}
newcolumntype{R}{@{}c<{spaceifnumvalue{cayley}=1kern0.5exraisebox{-0.4ex}{)}elsevlinefi}}
newenvironment{cayley}[1][3]{setcounter{cayley}{0}array{L*{#1}{c}R}}{endarray}
begin{document}
[
begin{cayley}
&a & b & c &\
&a' & b' & c' &\
&a''& b''& c''&\
end{cayley}
qquad
begin{cayley}[4]
&a & b & c & d &\
&a' & b' & c' & d' &\
&a''& b''& c''& d''&\
end{cayley}
]
end{document}
answered 8 hours ago
AndrewAndrew
31.4k34483
add a comment |
3
Extending Bernard's idea slightly:
...but not quite up to the standards of egreg's nice solution:)
documentclass{article}
usepackage{array}
newcounter{cayley}
newcolumntype{L}{>{stepcounter{cayley}%
ifnumvalue{cayley}=1raisebox{-0.4ex}{(}kern0.5exelsevlinefi}c@{}}
newcolumntype{R}{@{}c<{spaceifnumvalue{cayley}=1kern0.5exraisebox{-0.4ex}{)}elsevlinefi}}
newenvironment{cayley}[1][3]{setcounter{cayley}{0}array{L*{#1}{c}R}}{endarray}
begin{document}
[
begin{cayley}
&a & b & c &\
&a' & b' & c' &\
&a''& b''& c''&\
end{cayley}
qquad
begin{cayley}[4]
&a & b & c & d &\
&a' & b' & c' & d' &\
&a''& b''& c''& d''&\
end{cayley}
]
end{document}
answered 8 hours ago
AndrewAndrew
31.4k34483
add a comment |
3
3
3
Extending Bernard's idea slightly:
...but not quite up to the standards of egreg's nice solution:)
documentclass{article}
usepackage{array}
newcounter{cayley}
newcolumntype{L}{>{stepcounter{cayley}%
ifnumvalue{cayley}=1raisebox{-0.4ex}{(}kern0.5exelsevlinefi}c@{}}
newcolumntype{R}{@{}c<{spaceifnumvalue{cayley}=1kern0.5exraisebox{-0.4ex}{)}elsevlinefi}}
newenvironment{cayley}[1][3]{setcounter{cayley}{0}array{L*{#1}{c}R}}{endarray}
begin{document}
[
begin{cayley}
&a & b & c &\
&a' & b' & c' &\
&a''& b''& c''&\
end{cayley}
qquad
begin{cayley}[4]
&a & b & c & d &\
&a' & b' & c' & d' &\
&a''& b''& c''& d''&\
end{cayley}
]
end{document}
answered 8 hours ago
AndrewAndrew
31.4k34483
Extending Bernard's idea slightly:
...but not quite up to the standards of egreg's nice solution:)
documentclass{article}
usepackage{array}
newcounter{cayley}
newcolumntype{L}{>{stepcounter{cayley}%
ifnumvalue{cayley}=1raisebox{-0.4ex}{(}kern0.5exelsevlinefi}c@{}}
newcolumntype{R}{@{}c<{spaceifnumvalue{cayley}=1kern0.5exraisebox{-0.4ex}{)}elsevlinefi}}
newenvironment{cayley}[1][3]{setcounter{cayley}{0}array{L*{#1}{c}R}}{endarray}
begin{document}
[
begin{cayley}
&a & b & c &\
&a' & b' & c' &\
&a''& b''& c''&\
end{cayley}
qquad
begin{cayley}[4]
&a & b & c & d &\
&a' & b' & c' & d' &\
&a''& b''& c''& d''&\
end{cayley}
]
end{document}
answered 8 hours ago
AndrewAndrew
31.4k34483
answered 8 hours ago
AndrewAndrew
31.4k34483
answered 8 hours ago
AndrewAndrew
31.4k34483
answered 8 hours ago
AndrewAndrew
31.4k34483
31.4k34483
add a comment |
add a comment |
2
Here is an approximation, with basic commands:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
begin{document}
[ begin{array}{c@{}ccc@{}c}
(mkern 4.2mu{} & a &b & c &mkern 4.2mu)\[-0.31ex]
vline & a' &b' & c' & vline \
vline & a'' &b'' & c''& vline
end{array} ]%
end{document}
answered 9 hours ago
BernardBernard
177k779211
add a comment |
2
Here is an approximation, with basic commands:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
begin{document}
[ begin{array}{c@{}ccc@{}c}
(mkern 4.2mu{} & a &b & c &mkern 4.2mu)\[-0.31ex]
vline & a' &b' & c' & vline \
vline & a'' &b'' & c''& vline
end{array} ]%
end{document}
answered 9 hours ago
BernardBernard
177k779211
add a comment |
2
2
2
Here is an approximation, with basic commands:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
begin{document}
[ begin{array}{c@{}ccc@{}c}
(mkern 4.2mu{} & a &b & c &mkern 4.2mu)\[-0.31ex]
vline & a' &b' & c' & vline \
vline & a'' &b'' & c''& vline
end{array} ]%
end{document}
answered 9 hours ago
BernardBernard
177k779211
Here is an approximation, with basic commands:
documentclass{article}
usepackage{amsmath,amssymb,graphicx}
begin{document}
[ begin{array}{c@{}ccc@{}c}
(mkern 4.2mu{} & a &b & c &mkern 4.2mu)\[-0.31ex]
vline & a' &b' & c' & vline \
vline & a'' &b'' & c''& vline
end{array} ]%
end{document}
answered 9 hours ago
BernardBernard
177k779211
answered 9 hours ago
BernardBernard
177k779211
answered 9 hours ago
BernardBernard
177k779211
answered 9 hours ago
BernardBernard
177k779211
177k779211
add a comment |
add a comment |
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is it just my eyes or am I right in thinking that on its own the () are symmetric pair but the overlapping )( symbol is using thinner more rounded )( to get more of an overlap so not using the matching parens for the outer borders of the matrices....
– David Carlisle
10 hours ago
more
$(1,2,3between 4,5,6)$than$(1,2,3)!( 4,5,6)$– David Carlisle
10 hours ago
@DavidCarlisle No it is the same thickness. There is a link to the Royal Society paper jstor.org/stable/pdf/108649.pdf
– Yiannis Lazarides
10 hours ago
Yes that is the link I used, I see egreg also used
betweensee this image copied from that pdf, the overlapping brackets are not the same shape as the non-overlapping ones– David Carlisle
1 hour ago
@DavidCarlisle I see what you mean,
betweenis a better choice.– Yiannis Lazarides
1 hour ago