The simulator can be found on the URL here: http://www.falstad.com/circuit/e-cap.html Remember to use 10 combinations of resistances and capacitances. *Need to provide steps to implement model on...

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The simulator can be found on the URL here: http://www.falstad.com/circuit/e-cap.html Remember to use 10 combinations of resistances and capacitances. *Need to provide steps to implement model on MATLAB
Answered Same DayMar 25, 2021University of Western Australia

Answer To: The simulator can be found on the URL here: http://www.falstad.com/circuit/e-cap.html Remember to...

Kshitij answered on Mar 29 2021
133 Votes
allRcfile/Drain.m
%%
h=6;
d=4;
r=0.05
vol=pi*((d/2)^2)*h;
t=(pi*(4^2))/(0.81*(pi*(0.05)^2)*(sqrt(6)/8*9.8));
timeinhour=t/3600;
timei
nminute=timeinhour*60
allRcfile/Plotsofexperimentdata.xlsx
Sheet1
        TRIAL        Resistor value (ohm)        Capacitor value(µf)        Time constant
        1        100        10        0.001
        2        5000        500        2.5
        3        9000        300        2.7
        4        900        20        0.018
        5        2000        450        0.9
        6        1200        40        0.048
        7        3500        38        0.133
        8        4500        300        1.35
        9        2500        3000        7.5
        10        5500        25        0.1375
Resistor value (ohm)    100    5000    9000    900    2000    1200    3500    4500    2500    5500    Time constant    1E-3    2.5    2.7    1.7999999999999999E-2    0.9    4.8000000000000001E-2    0.13300000000000001    1.35    7.5    0.13750000000000001    
Resistance vs Time constant
Time constant    100    5000    9000    900    2000    1200    3500    4500    2500    5500    1E-3    2.5    2.7    1.7999999999999999E-2    0.9    4.8000000000000001E-2    0.13300000000000001    1.35    7.5    0.13750000000000001    
allRcfile/Rc_report.docx
REPORT
RC Time Constant, Tau is represented as
This RC time constant only specifies a rate of charge where, R is in Ω and C in Farads.
Since voltage V is related to charge on a capacitor given by the equation, Vc = Q/C, the voltage across the value of the voltage across the capacitor ( Vc ) at any instant in time during the charging period is given as:
Calculation of time constant on different values of resistance of resistors are calculated as in table:-
        TRIAL
        Resistor value...
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