User Portlet

Kay Herbert
Discussions
Does anyone know how I can customize the background image and or company logo in a presenter notebook? I like to take advantage of Mathematica in my presentations but need to format it in my company style as one can do in power point presentations.
I forgot to mention that there was also Macsyma (Lisp based) which at the time (1980's) was the dominant software in the space. Macsyma apparently had several problems, no implementation on various popular platforms, licensing, cost and ability in...
You make some good points but maybe your premise is wrong. Is Facebook dying? ![enter image description here][1] [1]: https://community.wolfram.com//c/portal/getImageAttachment?filename=Screenshot2021-04-29210905.png&userId=81318 Google...
I just installed Cuda from Nvidia on my Windows 10 Lenovo X1 no problem: In[1]:= Needs["CUDALink"] In[2]:= CUDAInformation[] Out[2]= {1 -> {"Name" -> "GeForce GTX 1650 with Max-Q Design", "Clock Rate" ->...
Thank you for the badge! I posted this because I think the IHME Model is way off and overly optimistic. They constantly have to upward revise the fatalities. ![enter image description here][1] [1]:...
Works for me as well i7-9750H 2.6Ghz 16GB, home edition
Sometimes the web sites use JSON files, so I look for ".json" file path in the source of the website: ![enter image description here][1] [1]: https://community.wolfram.com//c/portal/getImageAttachment?filename=4098Capture.JPG&userId=81318 ...
Dr. Chung recently received a reward from Wolfram for his symbolic package. Does anyone know how to gain access? here is his book: [book][1] defunct link: http://symbcomp.gist.ac.kr/ defunct 2011 sample: ...
Wolfram doesn't offer a compiler to standalone APPs. However you can make CDF's or Enterprise CDF's (computable document format) that can be distributed, or you can deploy your software on the cloud + more...
It could also be your boundary conditions: In[28]:= ClearAll["Global*"] In[29]:= DSolve[{x^2*y''[x] + 7*x*y'[x] + 9*y[x] == 0, y'[-1] == -9 - 3 I (2 I - 9 \[Pi]), y[-1] == -I (2 I - 9 \[Pi])}, y[x], x] ...