This is all the informaiton I have, If more information is
needed like numbers, use random ones. I just need an example to
understand how to do the problem.
This is all the informaiton I have, If more information is needed like numbers, use random...
PLEASE ANSWER VERY QUICKLY!! I RATE HIGH!!
The experiment is on RC circuits and the aim is to determine the time constant. Your group sets up the circuit with a resistor R and a capacitor C connected to a switch and an ideal battery (E). The circuit diagram is shown in the figure. You close the switch at time Os and the voltage across the capacitor Ve and current I in the ammeter are recorded in a spreadsheet using a...
8. Capacitance in circuits, RC circuits When a voltage source Vo is applied to a capacitor in a circuit which has a resistance R, a charge Q CV will build up across the capacitor. This does not happen instantaneously, but takes some time. The charge builds up exponentially with a characteristic time r = RC. Charging: V = v. 1 - e-t/RC) Discharging: Vc = V e-t/RC Page 2 of 3 When t = RC , the exponential is lle,...
answer all for good ratings
I. mR, ID 'B E R3 R2 Iz لل The circuit shown has a battery with EMF=6.00 Volts. Each of the resistors is 1.00 Ohms. What is the effective resistance of the circuit? You are given a circuit with a switch, resistor, capacitor and battery all in series. The capacitor is initially discharged and begins charging at t=0.0000s, when the switch is closed. The capacitance is C=0.0100F, the resistance is R=30.00000hms, and the battery EMF=15.0000Volts....
A resistor was connected to a variable voltage source and the current was measured for various voltages.The following results were obtained: Trial Voltage (V) Current (mA) 1 1 3.3 2 1.96 7.1 3 3.03 10.9 4 3.98 13.7 where V is the voltage difference across the resistor and I is the current travelling through the resistor at the same time. Calculate the resistance for each trial and the average of the resistances. Determine the uncertainty in the average resistance. Report...
Resistor - 100 mega-ohms
capacitor - .47 micro farads
i am having an extremely hard time finding the theoretical
time constant and the experimental ones.
Format Painter 龘· . ▼ 窖三三一嚚 Merge & Center s-90 , Clipboard Font Alignment Number 0 2.81 7.8 15.4 25.76 0 0.5 1 1.5 Charging a Capacitor 38.732.5 2 54.95 74.26 97.67 124.45 156.24 193.33 235.43 284.47 3.5 4 4.5 5.5 50 100 150 Time (s) 6.5 seconds voltage seconds voltage 10 9.5 Discharging a...
We
calculated the capacticance of our capacitior in farads and we have
to compare it to the listed capacitance of the capacitor as shown
in the picture. When we do percent difference we get 200%... where
did I mess up? That can't be right. The resistance of our resistor
is 12970 ohms. Please explain this like you were talking to a
child.
Amicon 26936KO (M) 2000 F25V 81-POLAR NPS wire leads of the resistor to the table the body of...
Chose the correct answer(s) from the multiple choice lists below 1. Exergy of a system is a) b) always increasing e) guided by the first and second laws of thermodynamics for reversible processes only Un d) limited by the second law of thermodynamics for all processes. processes, it is destroyed partly or completely). e) equal to the Gibs free energy of the system. 211two electrodes, one made of u (E.-3.06 V) and another made of Cu ΟΕ.+034V placed in an...