Yes you are correct.
Notice when mouse pointer is over waveform that the corresponding wire or component colour changes and visa versa.
You can add any waveform by selecting single wire or component, then right mouse add
View In Scope
Then on new waveform , right mouse and change view ( painfully only one option at a time)
to Show Peak Value,
(repeat) Show Negative Peak,
... Disable current or voltage,
(repeat) show frequency,
stack or unstack waveform to left..etc
then Menu> File>
Export Link
You can also right mouse copy components or group of parts, then ^V to paste, add wires for test points, then view in scope.etc etc. then save into your notepad by Export Text (script) or Export Link
Or start from scratch with
menu> Circuits>transistors>Multivibrators>Astable (enter)
Notice the 1K diode series limits base current, steps output collector voltage instead of slewing RC slowly and R divider ensure threshold still commutates transistors with >0.65Vbe.
hFE is fixed for each transistor and you can change from 100 to 10 on both but not one.
Right click on any component to change property.. even wires to show instant DC Voltage or current.
Scope always shows peak values on entire wave.
In the end this multivibrator sucks a lot of current, but the collector R could be a useful external load.
You can add any component or very simple IC (Op Amp) but some characteristics are estimated like Diode Vf @1A, others are ideal like current out of Op Amp and bandwidth, so to make realistic, one must add parasitic or intrinsic resistance, capacitance, inductance for more accurate simulation. ( requires knowing the limitations but quick and dirty way to show proof of concept)
I like the presentation style better than Vspice.