In the circuit shown in the figure, the S switch is closed at t = 0 and the capacitors, which are completely empty, begin to fill. Here E = 50 V, C = 4 µF and R = 15 N. R A) What is the time constant of the circuit, T, in units of microseconds? Yanıt: B) When t = T, what is the total charge, in units of microcoulomb, accumulated in the capacitors?
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Q: ) THE FOLLOWING QUESTIONS ARE BASED ON THE INFORMATION GIVEN HERE, R C C In the circuit shown in the…
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- In this chapter, most examples and problems involved direct current (DC). DC circuits have the current flowing in one direction, from positive to negative. When the current was changing, it was changed linearly from I=ImaxtoI=+Imax and the voltage changed linearly from V=Vmax to V=+Vmax where Vmax=ImaxR .Suppose a voltage source is placed in series with a resistor of R = 10 that supplied a current that alternated as a sine wave, for example, I(t)=(3.00A)sin(24.00st) . (a) What would a graph of the voltage drop across the resistor V(t) versus time look like? (b) What would a plot of V(t) versus I(t) for one period look like? (Hint: If you are not sure, try plotting V(t) versus I(t) using a spreadsheet.)) THE FOLLOWING QUESTIONS ARE BASED ON THE INFORMATION GIVEN HERE. R C In the circuit shown in the figure, the S switch is closed at t = 0 and the capacitors, which are completely empty, begin to fill. Here E = 40 V, C = 3 µF and R = 70 N. R A) What is the time constant of the circuit, 7, in units of microseconds? Answer: B) When t = T, what is the total charge, in units of microcoulomb, accumulated in the capacitors? Answer:In the circuit shown below, find the current and the voltage for each circuit element at the following times. (a)Long time after switch S is closed, and (b)Write down the relevant equations whose solution would yield the currents 1,,1, and 1, at an arbitrary time t. Just write down these equations and do not solve them. L=15mH R= 500 E - 50V R =750
- In the circuit to the right, & = 1.2kV, C = 6.5 µF, and R₁ = R₂ R3 = R = 0.73 M. With C completely uncharged, switch S is sud- denly closed at t = 0. Remember to draw equivalent circuits to help with the analysis! R₁ -£8 S اقع www R₂ R₂ Fww (a) At t = 0, what is the voltage across the capacitor? How are the voltages across R3 and R₂ related? (b) At t= 0, what are the currents in each resistor? (c) For t → ∞o, what are the currents in each resistor? (d) For t→ ∞o, what are the voltages across each resistor? (e) For t → ∞, what is the voltage across the capacitor? (f) Once the circuit has nearly reached equilibrium, the switch is reopened. What is the current in each resistor right after the switch is reopened? The equivalent circuit will be super useful here; note that when we change the circuit by opening the switch, the capacitor is no longer in steady state - do not assume its current is zero! (g) How long after the switch is reopened does it take for the current in R3 to drop to…Оp Amp H.W) You have 5 voltage inputs (V1...5) and you wish to calculate 4(V1 + V2 + V3) – 2(V4 + V5). Design & Draw a circuit to achieve this.) THE FOLLOWING QUESTIONS ARE BASED ON THE INFORMATION GIVEN HERE. In the circuit shown in the figure, the S switch is closed at t = 0 and the capacitors, which are completely empty, begin to fill. Here E = 45 V, C = 5 µF and R = 100 2. R A) What is the time constant of the circuit, T, in units of microseconds? Answer:
- Construct the circuit of the following expression below using logic gates and using logic.ly. Submit your answer here using the reply button. (P v ē) ^ (P v R) V (P V (Q A R)) ^ [(P v Q) ^ (P v R). (P ^ Q) ^ (P v Q) (P^ Q) V R ( ΑΘΒ) ν (ΑΛD)The figure below shows a capacitor, with capacitance C = 37.5 µF, and a resistor, with resistance R = 77.5 kn, connected in series to a battery, with Ɛ = 33.0 V. The circuit has a switch, which is initially open. %3D 3. R S (a) What is the circuit's time constant (in s)? (b) After the switch is closed for one time constant, how much charge (in C) is on the capacitor? CPART (1) Assume capacitor is fully charged when switch is at position 'a' for about 10 minutes. The switch is changed to position 'b' at t= 0. What is the current in the circuit immediately after the switch is closed? Assume after some time, the current in the circuit is 80.0 mA when the switch is at position 'b'. Can you find, what will be that time? 9.0 V 부 Paragraph a itur b 1.0 με PART (II) Assume a magnetic field of 5.2 T present inside the cyclotron. An electron enters the cyclotron with speed of 2.0 x 107 m/s. What is the radius of the electron's orbit just before they exit from the cyclotron. BI U A/ 10 Ω E✓ E GO + v
- For the circuit shown in Fig.1 below, C1 = 5μF, C2 = 4μF, C3 = 6μF and ∆V = 65V. Find:(a) the equivalent capacitance, (b) the charge on each capacitor and (c) the potential differenceacross each capacitor.Figure 1: Problem 2.Problem 3For the circuit shown in Fig.2 below, determine the resistance R such that the current in R is0.50 A, with the sense from a to b.Figure 2: Problem 2.Problem 4A straight wire of length 0.40 m, carrying current I = 7.0 A is oriented at angle θ = 27◦ toa uniform magnetic field B = 1.2 T. The field is in the positive x-direction. Determine themagnitude and direction of the magnetic force on the wire.1A simple DC circuit experiment is conducted using a circuit diagram shown below: 26 v 3 mA R R (Indiabix technologies, 2021) In the figure above, two same unknown standard resistor R is connected in the circuit . The voltmeter and ammeter are connected to the circuit as shown above. a) Calculate the unknown resistance of the resistor used in the circuit. b) If we increase the voltage to 40 V, calculate the current measured by the ammeter. | c) Using the data from the above experiment, a graph is plotted between voltage along the Y axis and current along the X axis as shown below:e the circuit. Assume the Capacitorr are unchared before fhe Suntch is closed, At e O the' switch the switch State the equation and sherch the function out five tine/ constanto Showing the ey valuer ) he voltage on the mcro F capaciton 2/The currend and voltage profile of 3)dedermine the final the 4 red capacıtor.