How do I fix the parentheses and division bar spacing in this quotient of partial derivatives?
With this code:
$frac{left(ffrac{partial left[frac{P}{T}right]}{partialV}right)_T
}{left(ffrac{partial
V}{partial T}right)_V}$
And where:
newcommand{ffrac}[2]{ensuremath{frac{displaystyle #1}{displaystyle#2}}}
I get this:
There are three problems:
1) The parentheses around the outermost numerator don't match the contents.
2) The variables are too close to the division bars.
3) I'd prefer the subscripts be closer to the parentheses.
How do I clean these up, in that order of priority?
I'm using the ffrac
code (from Fractions with large elements) to increase the display size; but reverting to the standard frac
command doesn't change any of the problems I've described.
math-operators fractions
add a comment |
With this code:
$frac{left(ffrac{partial left[frac{P}{T}right]}{partialV}right)_T
}{left(ffrac{partial
V}{partial T}right)_V}$
And where:
newcommand{ffrac}[2]{ensuremath{frac{displaystyle #1}{displaystyle#2}}}
I get this:
There are three problems:
1) The parentheses around the outermost numerator don't match the contents.
2) The variables are too close to the division bars.
3) I'd prefer the subscripts be closer to the parentheses.
How do I clean these up, in that order of priority?
I'm using the ffrac
code (from Fractions with large elements) to increase the display size; but reverting to the standard frac
command doesn't change any of the problems I've described.
math-operators fractions
add a comment |
With this code:
$frac{left(ffrac{partial left[frac{P}{T}right]}{partialV}right)_T
}{left(ffrac{partial
V}{partial T}right)_V}$
And where:
newcommand{ffrac}[2]{ensuremath{frac{displaystyle #1}{displaystyle#2}}}
I get this:
There are three problems:
1) The parentheses around the outermost numerator don't match the contents.
2) The variables are too close to the division bars.
3) I'd prefer the subscripts be closer to the parentheses.
How do I clean these up, in that order of priority?
I'm using the ffrac
code (from Fractions with large elements) to increase the display size; but reverting to the standard frac
command doesn't change any of the problems I've described.
math-operators fractions
With this code:
$frac{left(ffrac{partial left[frac{P}{T}right]}{partialV}right)_T
}{left(ffrac{partial
V}{partial T}right)_V}$
And where:
newcommand{ffrac}[2]{ensuremath{frac{displaystyle #1}{displaystyle#2}}}
I get this:
There are three problems:
1) The parentheses around the outermost numerator don't match the contents.
2) The variables are too close to the division bars.
3) I'd prefer the subscripts be closer to the parentheses.
How do I clean these up, in that order of priority?
I'm using the ffrac
code (from Fractions with large elements) to increase the display size; but reverting to the standard frac
command doesn't change any of the problems I've described.
math-operators fractions
math-operators fractions
edited Jan 18 at 10:55
theorist
asked Jan 18 at 10:36
theoristtheorist
1286
1286
add a comment |
add a comment |
2 Answers
2
active
oldest
votes
I suggest using the esdiff
package, which simplifies typing of partial derivatives, and replacing the parentheses in the numerator with a pmatrix
environment.
I added a variant to have the column vector in medium size (~80% of displaystyle
). The medsize
environment is defined in the nccmath
package:
documentclass{article}
usepackage{amsmath}
usepackage{esdiff, nccmath}
usepackage{booktabs}
begin{document}
{aboverulesep=-1.5ptbelowrulesep=0.5pt$displaystyle frac{begin{pmatrix}diffp{begin{bmatrix}
P\cmidrule(lr){1-1} T
end{bmatrix}}{V}end{pmatrix}_{!!! T}}{ diffp*{V}{T}{V}}
qquad{cmidrulekern = 0.4em
frac{begin{pmatrix}diffp{begin{medsize}begin{bmatrix}
P\cmidrule(lr){1-1}T
end{bmatrix}end{medsize}}{V}end{pmatrix}_{!!! T}}{ diffp*{V}{T}{V}}} $}%
end{document}
Thanks @Bernard. The problem with the matrix form is that it lacks a division bar between the P and the T.
– theorist
Jan 19 at 1:06
@theorist. I hadn't noticed this division bar. Please see if my updated answer is what you want (uses booktabs).
– Bernard
Jan 19 at 1:30
Thanks again @Berard. That does answer my question about how to fix the appearance, so pending the requisite waiting period for other answers I'll accept it. My one concern, however, is usability. I thought if I saw how it was done for this form, I could then easily apply to others, e.g., where I had ratios in both the numerator and denominator of the top term, or where I had, say, partial (1/T) in the denominator of the bottom term. But with this more complicated syntax, it might be too time consuming to typeset lot of different partials. [Continued....]
– theorist
Jan 19 at 2:40
....Feel free to suggest that I post this as a separate question, but would there be a way to create a command, saydiffp2*
, that would provide your typesetting, such that if you wanted the bottom term, you'd enterdiffp2*{V}{T}{V}
(same construction asdiffp*
), and if you wanted the top term you'd enterdiffp2*{P,T}{V}{T}
(the{P,T}
indicating a vertical fraction enclosed in square brackets)? Or if you wanted 1/T instead of P/T, you enterdiffp2*{1,T}{V}{T}
. Then, to construct the whole example from my OP, you'd simply enterfrac{diffp2*{P,T}{V}{T}}{diffp2*{V}{T}{V}}
.
– theorist
Jan 19 at 3:00
add a comment |
The best approach uses, I believe, only a single frac
expression and inline-fraction notation for both partial derivative terms as well as for the P/T
term.
documentclass{article}
begin{document}
$frac{(partial(P/T)/partial V)^{}_T}{%
(partial V/partial T)^{}_V}$
end{document}
Thanks @Mico. I do like the simple syntax, though my students are more used to seeing the formatting I showed in my OP, which may more easily allow one to keep track of all the variables when the expressions become more complicated. But it's nice to have another option. One problem I see is that the variables (other than the subscripts) and partial symbols should be vertically centered relative to the parentheses and solidi, but here they're instead top-justified.
– theorist
Jan 19 at 1:37
add a comment |
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2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
oldest
votes
active
oldest
votes
I suggest using the esdiff
package, which simplifies typing of partial derivatives, and replacing the parentheses in the numerator with a pmatrix
environment.
I added a variant to have the column vector in medium size (~80% of displaystyle
). The medsize
environment is defined in the nccmath
package:
documentclass{article}
usepackage{amsmath}
usepackage{esdiff, nccmath}
usepackage{booktabs}
begin{document}
{aboverulesep=-1.5ptbelowrulesep=0.5pt$displaystyle frac{begin{pmatrix}diffp{begin{bmatrix}
P\cmidrule(lr){1-1} T
end{bmatrix}}{V}end{pmatrix}_{!!! T}}{ diffp*{V}{T}{V}}
qquad{cmidrulekern = 0.4em
frac{begin{pmatrix}diffp{begin{medsize}begin{bmatrix}
P\cmidrule(lr){1-1}T
end{bmatrix}end{medsize}}{V}end{pmatrix}_{!!! T}}{ diffp*{V}{T}{V}}} $}%
end{document}
Thanks @Bernard. The problem with the matrix form is that it lacks a division bar between the P and the T.
– theorist
Jan 19 at 1:06
@theorist. I hadn't noticed this division bar. Please see if my updated answer is what you want (uses booktabs).
– Bernard
Jan 19 at 1:30
Thanks again @Berard. That does answer my question about how to fix the appearance, so pending the requisite waiting period for other answers I'll accept it. My one concern, however, is usability. I thought if I saw how it was done for this form, I could then easily apply to others, e.g., where I had ratios in both the numerator and denominator of the top term, or where I had, say, partial (1/T) in the denominator of the bottom term. But with this more complicated syntax, it might be too time consuming to typeset lot of different partials. [Continued....]
– theorist
Jan 19 at 2:40
....Feel free to suggest that I post this as a separate question, but would there be a way to create a command, saydiffp2*
, that would provide your typesetting, such that if you wanted the bottom term, you'd enterdiffp2*{V}{T}{V}
(same construction asdiffp*
), and if you wanted the top term you'd enterdiffp2*{P,T}{V}{T}
(the{P,T}
indicating a vertical fraction enclosed in square brackets)? Or if you wanted 1/T instead of P/T, you enterdiffp2*{1,T}{V}{T}
. Then, to construct the whole example from my OP, you'd simply enterfrac{diffp2*{P,T}{V}{T}}{diffp2*{V}{T}{V}}
.
– theorist
Jan 19 at 3:00
add a comment |
I suggest using the esdiff
package, which simplifies typing of partial derivatives, and replacing the parentheses in the numerator with a pmatrix
environment.
I added a variant to have the column vector in medium size (~80% of displaystyle
). The medsize
environment is defined in the nccmath
package:
documentclass{article}
usepackage{amsmath}
usepackage{esdiff, nccmath}
usepackage{booktabs}
begin{document}
{aboverulesep=-1.5ptbelowrulesep=0.5pt$displaystyle frac{begin{pmatrix}diffp{begin{bmatrix}
P\cmidrule(lr){1-1} T
end{bmatrix}}{V}end{pmatrix}_{!!! T}}{ diffp*{V}{T}{V}}
qquad{cmidrulekern = 0.4em
frac{begin{pmatrix}diffp{begin{medsize}begin{bmatrix}
P\cmidrule(lr){1-1}T
end{bmatrix}end{medsize}}{V}end{pmatrix}_{!!! T}}{ diffp*{V}{T}{V}}} $}%
end{document}
Thanks @Bernard. The problem with the matrix form is that it lacks a division bar between the P and the T.
– theorist
Jan 19 at 1:06
@theorist. I hadn't noticed this division bar. Please see if my updated answer is what you want (uses booktabs).
– Bernard
Jan 19 at 1:30
Thanks again @Berard. That does answer my question about how to fix the appearance, so pending the requisite waiting period for other answers I'll accept it. My one concern, however, is usability. I thought if I saw how it was done for this form, I could then easily apply to others, e.g., where I had ratios in both the numerator and denominator of the top term, or where I had, say, partial (1/T) in the denominator of the bottom term. But with this more complicated syntax, it might be too time consuming to typeset lot of different partials. [Continued....]
– theorist
Jan 19 at 2:40
....Feel free to suggest that I post this as a separate question, but would there be a way to create a command, saydiffp2*
, that would provide your typesetting, such that if you wanted the bottom term, you'd enterdiffp2*{V}{T}{V}
(same construction asdiffp*
), and if you wanted the top term you'd enterdiffp2*{P,T}{V}{T}
(the{P,T}
indicating a vertical fraction enclosed in square brackets)? Or if you wanted 1/T instead of P/T, you enterdiffp2*{1,T}{V}{T}
. Then, to construct the whole example from my OP, you'd simply enterfrac{diffp2*{P,T}{V}{T}}{diffp2*{V}{T}{V}}
.
– theorist
Jan 19 at 3:00
add a comment |
I suggest using the esdiff
package, which simplifies typing of partial derivatives, and replacing the parentheses in the numerator with a pmatrix
environment.
I added a variant to have the column vector in medium size (~80% of displaystyle
). The medsize
environment is defined in the nccmath
package:
documentclass{article}
usepackage{amsmath}
usepackage{esdiff, nccmath}
usepackage{booktabs}
begin{document}
{aboverulesep=-1.5ptbelowrulesep=0.5pt$displaystyle frac{begin{pmatrix}diffp{begin{bmatrix}
P\cmidrule(lr){1-1} T
end{bmatrix}}{V}end{pmatrix}_{!!! T}}{ diffp*{V}{T}{V}}
qquad{cmidrulekern = 0.4em
frac{begin{pmatrix}diffp{begin{medsize}begin{bmatrix}
P\cmidrule(lr){1-1}T
end{bmatrix}end{medsize}}{V}end{pmatrix}_{!!! T}}{ diffp*{V}{T}{V}}} $}%
end{document}
I suggest using the esdiff
package, which simplifies typing of partial derivatives, and replacing the parentheses in the numerator with a pmatrix
environment.
I added a variant to have the column vector in medium size (~80% of displaystyle
). The medsize
environment is defined in the nccmath
package:
documentclass{article}
usepackage{amsmath}
usepackage{esdiff, nccmath}
usepackage{booktabs}
begin{document}
{aboverulesep=-1.5ptbelowrulesep=0.5pt$displaystyle frac{begin{pmatrix}diffp{begin{bmatrix}
P\cmidrule(lr){1-1} T
end{bmatrix}}{V}end{pmatrix}_{!!! T}}{ diffp*{V}{T}{V}}
qquad{cmidrulekern = 0.4em
frac{begin{pmatrix}diffp{begin{medsize}begin{bmatrix}
P\cmidrule(lr){1-1}T
end{bmatrix}end{medsize}}{V}end{pmatrix}_{!!! T}}{ diffp*{V}{T}{V}}} $}%
end{document}
edited Jan 19 at 1:28
answered Jan 18 at 11:23
BernardBernard
169k773198
169k773198
Thanks @Bernard. The problem with the matrix form is that it lacks a division bar between the P and the T.
– theorist
Jan 19 at 1:06
@theorist. I hadn't noticed this division bar. Please see if my updated answer is what you want (uses booktabs).
– Bernard
Jan 19 at 1:30
Thanks again @Berard. That does answer my question about how to fix the appearance, so pending the requisite waiting period for other answers I'll accept it. My one concern, however, is usability. I thought if I saw how it was done for this form, I could then easily apply to others, e.g., where I had ratios in both the numerator and denominator of the top term, or where I had, say, partial (1/T) in the denominator of the bottom term. But with this more complicated syntax, it might be too time consuming to typeset lot of different partials. [Continued....]
– theorist
Jan 19 at 2:40
....Feel free to suggest that I post this as a separate question, but would there be a way to create a command, saydiffp2*
, that would provide your typesetting, such that if you wanted the bottom term, you'd enterdiffp2*{V}{T}{V}
(same construction asdiffp*
), and if you wanted the top term you'd enterdiffp2*{P,T}{V}{T}
(the{P,T}
indicating a vertical fraction enclosed in square brackets)? Or if you wanted 1/T instead of P/T, you enterdiffp2*{1,T}{V}{T}
. Then, to construct the whole example from my OP, you'd simply enterfrac{diffp2*{P,T}{V}{T}}{diffp2*{V}{T}{V}}
.
– theorist
Jan 19 at 3:00
add a comment |
Thanks @Bernard. The problem with the matrix form is that it lacks a division bar between the P and the T.
– theorist
Jan 19 at 1:06
@theorist. I hadn't noticed this division bar. Please see if my updated answer is what you want (uses booktabs).
– Bernard
Jan 19 at 1:30
Thanks again @Berard. That does answer my question about how to fix the appearance, so pending the requisite waiting period for other answers I'll accept it. My one concern, however, is usability. I thought if I saw how it was done for this form, I could then easily apply to others, e.g., where I had ratios in both the numerator and denominator of the top term, or where I had, say, partial (1/T) in the denominator of the bottom term. But with this more complicated syntax, it might be too time consuming to typeset lot of different partials. [Continued....]
– theorist
Jan 19 at 2:40
....Feel free to suggest that I post this as a separate question, but would there be a way to create a command, saydiffp2*
, that would provide your typesetting, such that if you wanted the bottom term, you'd enterdiffp2*{V}{T}{V}
(same construction asdiffp*
), and if you wanted the top term you'd enterdiffp2*{P,T}{V}{T}
(the{P,T}
indicating a vertical fraction enclosed in square brackets)? Or if you wanted 1/T instead of P/T, you enterdiffp2*{1,T}{V}{T}
. Then, to construct the whole example from my OP, you'd simply enterfrac{diffp2*{P,T}{V}{T}}{diffp2*{V}{T}{V}}
.
– theorist
Jan 19 at 3:00
Thanks @Bernard. The problem with the matrix form is that it lacks a division bar between the P and the T.
– theorist
Jan 19 at 1:06
Thanks @Bernard. The problem with the matrix form is that it lacks a division bar between the P and the T.
– theorist
Jan 19 at 1:06
@theorist. I hadn't noticed this division bar. Please see if my updated answer is what you want (uses booktabs).
– Bernard
Jan 19 at 1:30
@theorist. I hadn't noticed this division bar. Please see if my updated answer is what you want (uses booktabs).
– Bernard
Jan 19 at 1:30
Thanks again @Berard. That does answer my question about how to fix the appearance, so pending the requisite waiting period for other answers I'll accept it. My one concern, however, is usability. I thought if I saw how it was done for this form, I could then easily apply to others, e.g., where I had ratios in both the numerator and denominator of the top term, or where I had, say, partial (1/T) in the denominator of the bottom term. But with this more complicated syntax, it might be too time consuming to typeset lot of different partials. [Continued....]
– theorist
Jan 19 at 2:40
Thanks again @Berard. That does answer my question about how to fix the appearance, so pending the requisite waiting period for other answers I'll accept it. My one concern, however, is usability. I thought if I saw how it was done for this form, I could then easily apply to others, e.g., where I had ratios in both the numerator and denominator of the top term, or where I had, say, partial (1/T) in the denominator of the bottom term. But with this more complicated syntax, it might be too time consuming to typeset lot of different partials. [Continued....]
– theorist
Jan 19 at 2:40
....Feel free to suggest that I post this as a separate question, but would there be a way to create a command, say
diffp2*
, that would provide your typesetting, such that if you wanted the bottom term, you'd enter diffp2*{V}{T}{V}
(same construction as diffp*
), and if you wanted the top term you'd enter diffp2*{P,T}{V}{T}
(the {P,T}
indicating a vertical fraction enclosed in square brackets)? Or if you wanted 1/T instead of P/T, you enter diffp2*{1,T}{V}{T}
. Then, to construct the whole example from my OP, you'd simply enter frac{diffp2*{P,T}{V}{T}}{diffp2*{V}{T}{V}}
.– theorist
Jan 19 at 3:00
....Feel free to suggest that I post this as a separate question, but would there be a way to create a command, say
diffp2*
, that would provide your typesetting, such that if you wanted the bottom term, you'd enter diffp2*{V}{T}{V}
(same construction as diffp*
), and if you wanted the top term you'd enter diffp2*{P,T}{V}{T}
(the {P,T}
indicating a vertical fraction enclosed in square brackets)? Or if you wanted 1/T instead of P/T, you enter diffp2*{1,T}{V}{T}
. Then, to construct the whole example from my OP, you'd simply enter frac{diffp2*{P,T}{V}{T}}{diffp2*{V}{T}{V}}
.– theorist
Jan 19 at 3:00
add a comment |
The best approach uses, I believe, only a single frac
expression and inline-fraction notation for both partial derivative terms as well as for the P/T
term.
documentclass{article}
begin{document}
$frac{(partial(P/T)/partial V)^{}_T}{%
(partial V/partial T)^{}_V}$
end{document}
Thanks @Mico. I do like the simple syntax, though my students are more used to seeing the formatting I showed in my OP, which may more easily allow one to keep track of all the variables when the expressions become more complicated. But it's nice to have another option. One problem I see is that the variables (other than the subscripts) and partial symbols should be vertically centered relative to the parentheses and solidi, but here they're instead top-justified.
– theorist
Jan 19 at 1:37
add a comment |
The best approach uses, I believe, only a single frac
expression and inline-fraction notation for both partial derivative terms as well as for the P/T
term.
documentclass{article}
begin{document}
$frac{(partial(P/T)/partial V)^{}_T}{%
(partial V/partial T)^{}_V}$
end{document}
Thanks @Mico. I do like the simple syntax, though my students are more used to seeing the formatting I showed in my OP, which may more easily allow one to keep track of all the variables when the expressions become more complicated. But it's nice to have another option. One problem I see is that the variables (other than the subscripts) and partial symbols should be vertically centered relative to the parentheses and solidi, but here they're instead top-justified.
– theorist
Jan 19 at 1:37
add a comment |
The best approach uses, I believe, only a single frac
expression and inline-fraction notation for both partial derivative terms as well as for the P/T
term.
documentclass{article}
begin{document}
$frac{(partial(P/T)/partial V)^{}_T}{%
(partial V/partial T)^{}_V}$
end{document}
The best approach uses, I believe, only a single frac
expression and inline-fraction notation for both partial derivative terms as well as for the P/T
term.
documentclass{article}
begin{document}
$frac{(partial(P/T)/partial V)^{}_T}{%
(partial V/partial T)^{}_V}$
end{document}
edited Jan 18 at 15:21
answered Jan 18 at 11:19
MicoMico
278k30380768
278k30380768
Thanks @Mico. I do like the simple syntax, though my students are more used to seeing the formatting I showed in my OP, which may more easily allow one to keep track of all the variables when the expressions become more complicated. But it's nice to have another option. One problem I see is that the variables (other than the subscripts) and partial symbols should be vertically centered relative to the parentheses and solidi, but here they're instead top-justified.
– theorist
Jan 19 at 1:37
add a comment |
Thanks @Mico. I do like the simple syntax, though my students are more used to seeing the formatting I showed in my OP, which may more easily allow one to keep track of all the variables when the expressions become more complicated. But it's nice to have another option. One problem I see is that the variables (other than the subscripts) and partial symbols should be vertically centered relative to the parentheses and solidi, but here they're instead top-justified.
– theorist
Jan 19 at 1:37
Thanks @Mico. I do like the simple syntax, though my students are more used to seeing the formatting I showed in my OP, which may more easily allow one to keep track of all the variables when the expressions become more complicated. But it's nice to have another option. One problem I see is that the variables (other than the subscripts) and partial symbols should be vertically centered relative to the parentheses and solidi, but here they're instead top-justified.
– theorist
Jan 19 at 1:37
Thanks @Mico. I do like the simple syntax, though my students are more used to seeing the formatting I showed in my OP, which may more easily allow one to keep track of all the variables when the expressions become more complicated. But it's nice to have another option. One problem I see is that the variables (other than the subscripts) and partial symbols should be vertically centered relative to the parentheses and solidi, but here they're instead top-justified.
– theorist
Jan 19 at 1:37
add a comment |
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