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TillEulenspiegel said:Location: S2=X2+y2+z2-t2
-=GST=- Nemisis (cs/cz) said:edit:
TillEulenspiegel said:Location: S2=X2+y2+z2-t2
u could say s=x+y+z-t or x-s=y+z-t or t+s=x+y+z yeah that last one isnt bad
TillEulenspiegel said:-=GST=- Nemisis (cs/cz) said:edit:
TillEulenspiegel said:Location: S2=X2+y2+z2-t2
u could say s=x+y+z-t or x-s=y+z-t or t+s=x+y+z yeah that last one isnt bad
No it has to be the sum of the squares , but there's no sub or superscript on the board and T is always neg. Nice to see someome reconizing the sig line at least
TillEulenspiegel said:Then you can look at "Kurkoffs law" and deal with the specific voltage ( or current ) drop over any circuit node. Sounds fancy but the punch line is you add up all the power used in all the nodes ( a node is a branch of a circuit with all components figured in ) ant that is the total amount of energy used.simple no? Thats for "DC" and "passive " resistance.
Oznog said:TillEulenspiegel said:Then you can look at "Kurkoffs law" and deal with the specific voltage ( or current ) drop over any circuit node. Sounds fancy but the punch line is you add up all the power used in all the nodes ( a node is a branch of a circuit with all components figured in ) ant that is the total amount of energy used.simple no? Thats for "DC" and "passive " resistance.
You will have much better luck finding it what you spell it "Kirchoff's Law".
Also, the next step is understanding Thevenin/Norton circuit equivalent resistances. That's natural once you understand ohm's & Kirchoff's.
TillEulenspiegel said:Radio Shack used to have a series of books by Forrest Mims, a few $$ ea.