5. Given a resistance of 157 Ω and a capacitance of 345 μF, what is t1/2? [milliseconds] (Answer to one tenth of a millisecond or N/A if there is no answer.)
6. Given a resistance of 157 Ω and a capacitance of 345 μF, what is the time constant τ (tau)?
5. Given a resistance of 157 Ω and a capacitance of 345 μF, what is t1/2?...
Given a resistance of 126 Ω and a capacitance of 435 μF, what is t1/2
Given a resistance of 175 Ω and a capacitance of 409 μF, what is t 1/2? answer in milliseconds.
Two capacitors with capacitance C=10 μF are connected in series in a circuit with resistance R=150 Ω. What is the value for t1/2 for this circuit? Give your answer to three significant figures in milliseconds.
A series RLC circuit has a resistance of 22 Ω , a capacitance of 0.82 μF , and an inductance of 240 mH . The circuit is connected to a variable-frequency source with a fixed rms voltage output of 12 V. Part A If the frequency that is supplied is set at the circuit's resonance frequency, what is the rms voltage across each of the circuit elements? Express your answers using two significant figures separated by commas.
Find the time constant in the following circuit for the given Capacitance and Resistance values. The voltage source is represented by: The capacitance and resistance values are the following: R M V u(t) C V(t) = V5(1 -e =) R C 1 kΩ 0.01 μF 10 kΩ 0.01 μF
Question 2 1 pts If two equal value capacitors (each of capacitance = C) are connected in series, the resulting capacitance will be: O2c Ос C/2 Question 3 1 pts If two equal value resistors (each of resistance = R) are connected in series, the resulting resistance will be: OR12 OR © 2R D Question 4 2 pts In an R-C Circuit, if the resistance is 20 Q and Capacitance is 5 pF. what will be the time constant? O...
Chapter 27, Problem 057 Switch S in in the figure is closed at time t = 0, to begin charging an initially uncharged capacitor of capacitance C = 17.9 μF through a resistor of resistance R = 23.0 Ω. At what time is the potential across the capacitor equal to that across the resistor?
The resistor in an RC circuit has a resistance of 155 Ω . Part A What capacitance must be used in this circuit if the time constant is to be 4.2 ms ? Express your answer using two significant figures. C C = μF Part B: Using the capacitance determined in part (a), calculate the current in the circuit 8.4 ms after the switch is closed. Assume that the capacitor is uncharged initially and that the emf of the battery...
A series RLC circuit has inductance 47.2 mH, capacitance 1.0 μF, and resistance 117.7 Ω and begins to oscillate at time t = 0. How many oscillations are completed within time the amplitude of the charge oscillations in the circuit be 26.8 % of its initial value?
The questions I need help with are in bold [Resistance-Capacitance] = [Resistance] middot [Capacitance] = volta/amp middot coulomb/volt = coulomb/volt = change/change/time = time. Thus, the dimensions of RC are the dimensions of time. Since RC is also a constant, tau = RC is called the 'time constant' of the circuit.) This constant is an important one: it controls the rate of discharge of the capacitor (through the resistor). Because delta V(0) = RI, the voltage across the capacitor is...