For the RL circuit pictured below, L = 86.5 Henries and R = 8.5 Ohms. The...
For the RL circuit pictured below, L = 86.5 Henries and R = 8.5
Ohms. The switch is placed in position 1 for a long time before it
is switched to position 2. After waiting 3 seconds, the current in
the circuit is 8.9
Amperes. What is the potential
difference across the battery?
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For the RL circuit pictured below, L = 86.5 Henries and R = 8.5
Ohms. The...
For the RL circuit pictured below, L = 86.5 Henries and R = 8.5 Ohms. The...
For the RL circuit pictured below, L = 86.5 Henries and R = 8.5 Ohms. The switch is placed in position 1 for a long time before it is switched to position 2. After waiting 3 seconds, the current in the circuit is 8.9 Amperes. What is the potential difference across the battery?
consider the following RL circuit: R is 100 ohms and the emf is 20 volts what...
consider the following RL circuit: R is 100 ohms and the emf is 20 volts what value of L will cause the circuit to reach 90% of its max current in .2 seconds after closing the switch
In the circuit below, R=10.0 ohms, L=30.0 h, and E=20v. switch s1 is closed and switch...
In the circuit below, R=10.0 ohms, L=30.0 h, and E=20v. switch
s1 is closed and switch s2 is left open. After the circuit has
reached its final value switch s1 is opened and switch s2 is
closed. what is the magnitude of the potential difference between
points a and b three seconds after s2 is closed (inV).
7. In the circuit below, R = 10.0 12, L = 30.0 H, and ε = 20.0 V. Switch S1 is closed and...
1. Use Laplace Transforms to determine the function modeling the current in an RLC circuit with L 10 Henries, R 20 ohms...
1. Use Laplace Transforms to determine the function modeling the current in an RLC circuit with L 10 Henries, R 20 ohms, C = 0.02 Farads, the initial charge is Q(0) = 0, the initial current is I(0) = 0, there is an electromotive force forcing the RLC circuit via the voltage function E(t) letting the current alternate naturally through the circuit. Use the fact the differential 10 sin (t), nd then, at t = 2T seconds, the battery is...
2. This problem is about an RLC circuit, which involves a resistor (of resistance R ohms),...
2. This problem is about an RLC circuit, which involves a resistor (of resistance R ohms), an inductor (of L henries), and a capacitor (of C farads). There is also a voltage source (such as a battery) providing E(t) volts at time t. 0 Switch When the switch is closed there is a current of I(t) amperes. With the help of Kirchhoff's laws one can derive an ODE for I = I(t): LI" + RI' + + I = E'(t)...
ON CAPAC Transient RL Circuit Consider the circuit shown in the figure. The resistance of the...
ON CAPAC Transient RL Circuit Consider the circuit shown in the figure. The resistance of the wire used to make the inductor is negligible compared to the resistors in the circuit. V-140 V, R; -10.Ohms, Ry - 1100 Ohms, and L-200 H RI WWW For this part, assume that switch S has been closed for a long time so that steady currents exist in the circuit. Find (1) the battery current, (2) the current in resistor Ry, and (3) the...
9. (12) Given the LRC circuit with L henries, R-10 ohms, C- farads and E(t) =...
9. (12) Given the LRC circuit with L henries, R-10 ohms, C- farads and E(t) = 50 cos t 30 volts, the charge q(t) satisfies the linear second order ordinary differential equation 2 dq1 dt2 (a) Find the charge q(t) if q(0) 100 coulombs and '(0)0 amperes. (b) Identify in q(t) the transient terms and, respectively, the steady state terms. Is the circuit overdamped, underdamped, or critically damped? E(t) Figure 1: Problem9.
The current in an RL circuit decreases from 0.50 A to 5.0 mA in the one...
The current in an RL circuit decreases from 0.50 A to 5.0 mA in the one second after the battery is switched out of the circuit. If L = 11.4 H, what is the resistance in the circuit? Express your answer in ohms.
2. Consider the circuit diagram shown. The resistors have different resistance values: R, 2R, and 3R....
2. Consider the circuit diagram shown. The resistors have different resistance values: R, 2R, and 3R. The circuit is not energized (as shown) until the switch SW is moved to the upper position at t 0. Answer the following questions in terms of Vo, R, and L SW (a) What is the current delivered by the battery at R 0? (b) What is the current delivered by the battery after a long time? (c) How would you define "a long...
An RL circuit is assembled with a 24.0 V ideal battery connected by a switch to...
An RL circuit is assembled with a 24.0 V ideal battery connected by a switch to a 37.5 mH inductor and 50.0 Ω resistor. a) How long, in ms, after the switch is closed does the current in the resistor reach 63.2% of its final value? BLANK-1 b) What is the maximum current, in Amperes, coming out of the voltage source after a very long time? BLANK-2 c) What is the current, in Amperes, through the resistor, 0.95 ms after...
In the circuit below, R=10.0 ohms, L=30.0 h, and E=20v. switch
s1 is closed and switch s2 is left open. After the circuit has
reached its final value switch s1 is opened and switch s2 is
closed. what is the magnitude of the potential difference between
points a and b three seconds after s2 is closed (inV).
7. In the circuit below, R = 10.0 12, L = 30.0 H, and ε = 20.0 V. Switch S1 is closed and...
1. Use Laplace Transforms to determine the function modeling the current in an RLC circuit with L 10 Henries, R 20 ohms, C = 0.02 Farads, the initial charge is Q(0) = 0, the initial current is I(0) = 0, there is an electromotive force forcing the RLC circuit via the voltage function E(t) letting the current alternate naturally through the circuit. Use the fact the differential 10 sin (t), nd then, at t = 2T seconds, the battery is...
2. This problem is about an RLC circuit, which involves a resistor (of resistance R ohms), an inductor (of L henries), and a capacitor (of C farads). There is also a voltage source (such as a battery) providing E(t) volts at time t. 0 Switch When the switch is closed there is a current of I(t) amperes. With the help of Kirchhoff's laws one can derive an ODE for I = I(t): LI" + RI' + + I = E'(t)...
ON CAPAC Transient RL Circuit Consider the circuit shown in the figure. The resistance of the wire used to make the inductor is negligible compared to the resistors in the circuit. V-140 V, R; -10.Ohms, Ry - 1100 Ohms, and L-200 H RI WWW For this part, assume that switch S has been closed for a long time so that steady currents exist in the circuit. Find (1) the battery current, (2) the current in resistor Ry, and (3) the...
9. (12) Given the LRC circuit with L henries, R-10 ohms, C- farads and E(t) = 50 cos t 30 volts, the charge q(t) satisfies the linear second order ordinary differential equation 2 dq1 dt2 (a) Find the charge q(t) if q(0) 100 coulombs and '(0)0 amperes. (b) Identify in q(t) the transient terms and, respectively, the steady state terms. Is the circuit overdamped, underdamped, or critically damped? E(t) Figure 1: Problem9.
2. Consider the circuit diagram shown. The resistors have different resistance values: R, 2R, and 3R. The circuit is not energized (as shown) until the switch SW is moved to the upper position at t 0. Answer the following questions in terms of Vo, R, and L SW (a) What is the current delivered by the battery at R 0? (b) What is the current delivered by the battery after a long time? (c) How would you define "a long...
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Please help me with FLOWCHART and UML diagram for class,
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