deletions | additions       diff --git a/untitled.tex b/untitled.tex  index 51de617..304fad8 100644  --- a/untitled.tex  +++ b/untitled.tex 
...
n experimental neuroscience, most electric signals are picked up from the electrolytic solution that constitutes extracellular (interneuronal) space, yet the origin of these potentials is incompletely understood. The open questions are:  - What level of detail is needed to model extracellular electrical phenomena, and which formalism can be employed?  - How valid is the cable equation, or need slow concentration changes of the major ionic components involved be modeled explicitly?  - How can LFP calculations be incorporated in simulation software?  - Can single-compartmental model neurons generate local field potentials at all?  - Do extracellular potentials contribute to neuron-neuron and neuron-glia communication?  $F_L$  \textit{Oh, an empty article!}  You can get started by \textbf{double clicking} this text block and begin editing. You can also click the \textbf{Text} button below to add new block elements. Or you can \textbf{drag and drop an image} right onto this text. Happy writing!