On Tue, 2012-11-27 at 08:06 +0100, Wolfgang Schuster wrote:
Better define a complete set which includes also serif and sans.
Afterwards you have to enable it with \setupbodyfont[…].
Hey Wolfgang. The reason why I hadn't done that is I didn't want to
overwrite the selected typeface I was using
On Sun, 2012-11-25 at 22:17 +0100, Wolfgang Schuster wrote:
You have to define a typeface and enable it but Latin Modern as text font
with patella etc.
for math doesn’t look very nice.
\definetypeface[mainface][rm][serif][modern] [default][designsize=auto]
Am 27.11.2012 um 07:39 schrieb Kip Warner k...@thevertigo.com:
On Sun, 2012-11-25 at 22:17 +0100, Wolfgang Schuster wrote:
You have to define a typeface and enable it but Latin Modern as text font
with patella etc.
for math doesn’t look very nice.
Am 25.11.2012 um 02:13 schrieb Kip Warner k...@thevertigo.com:
Hey list,
I am trying to typeset the Verhulst equation which contains a Euler
constant which I cannot get to display correctly:
\placeformula[formula:Verhulst equation]
\startformula
\math{P(t) = \frac{K P_0
On Sun, 2012-11-25 at 10:37 +0100, Wolfgang Schuster wrote:
You need a font which has the symbol, e.g. Cambria or Lucida OT.
Hey Wolfgang. Thanks for pointing that out. I had suspected as much,
which leads me to my next question: What is the setup for selecting a
new font, but just for math?
Am 25.11.2012 um 21:46 schrieb Kip Warner k...@thevertigo.com:
On Sun, 2012-11-25 at 10:37 +0100, Wolfgang Schuster wrote:
You need a font which has the symbol, e.g. Cambria or Lucida OT.
Hey Wolfgang. Thanks for pointing that out. I had suspected as much,
which leads me to my next
Am 25.11.2012 um 21:46 schrieb Kip Warner k...@thevertigo.com:
On Sun, 2012-11-25 at 10:37 +0100, Wolfgang Schuster wrote:
You need a font which has the symbol, e.g. Cambria or Lucida OT.
Hey Wolfgang. Thanks for pointing that out. I had suspected as much,
which leads me to my next
Hey list,
I am trying to typeset the Verhulst equation which contains a Euler
constant which I cannot get to display correctly:
\placeformula[formula:Verhulst equation]
\startformula
\math{P(t) = \frac{K P_0 \Eulerconst^{rt}}
{K + P_0(\Eulerconst^{r t} - 1)}}
\stopformula
The
