A current flows through an inductor L, as shown. a b Which statement is TRUE if the current is decreasing? The potential at point a is the same to that at point b. The answer depends on the value of the inductance L. The potential is greater at point a than at point b. The potential is smaller at point a than at point b. O O O O
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- A series circuit contains a 12-V battery, a 3.3- resistor, and a 4.4-mH inductor. If the switch to the battery is closed at t = 0, find the time required for the current in the circuit to reach 63% of its final value. a. 1.3E-3 s b. 1.5E-2 s c. 7.5E+2 s d. 1.6E-2 s e. 1.1E-4 sA battery of emf 30.0 V is connected to a switch, an inductor of inductance ? = 0.600 ? and two resistors, R1 = 10.0 and R2 = 6.00. The switch is initially open. A. What are the values of currents i1, i2, i3 just after the switch is closed? (Just give an answer) i1= i2 = i3 = B.)Which point, a or b, is at higher potential or are they at the same potential, just after switch S is closed? (Just give an answer) C. What is the value of current i1 through the battery a long time after the switch is closed? Show your work and briefly explain your logicQ104 You have the following circuit: When a charged capacitor is linked to an inductor, it induces a current to pass through the inductor, depleting the capacitor's charge until it is entirely discharged. The current flowing in the inductor, in return, charges up the capacitor until it becomes fully charged. If Q(t) denotes the charge on the capacitor at time t, and I represents the current, then. dQ I= L-10-9-0 dt² dt In the case that the resistance in the circuit is zero, Charge Q and current I would satisfy the differential equation shown below: 2-0 d²Q Ldt² L=dI dt In which L denotes the inductance and C denotes the capacitance, so the following equation can be made; 2=0 inductor Q(t)=_ HH capacitor In the same way that a spring can experience a damping force influencing its movement, a circuit can also have a similar effect introduced by the resistor. The resistor, with a resistance denoted by R, plays a role in this process. dQ *Rd 2 + &Q=0 m b) Q(0)=2 & Q'(0)=0 Q(t)= resistor…
- The circuit shown in the figure contains a resistor and a solenoid. A battery is connected by closing the switch in the figure and provides an EMF Vbat = 15 V. At a time t = 50 ms after the switch is closed the current in the circuit reaches a value of 1.0 A which corresponds to 25 % of its steady state value. What are the values of the resistance and inductance? State your answer to 2 s.f.This LR circuit has time constant named tau, t, and maximum current, If = V/R. Which one of the following best gives an equation for current after time tau, t, the switch has been closed? V If/T (i.e., If/tau) zero If (e-1)/e O I4/e If/eR $₁ S₂ 2 L (...) E A 3 H inductor, a 9.75 9 resistor, and a 1.4 V battery are connected as shown above. The circuit also contain two switches, S₁ and S₂. Initially both switches are open. At t = 0 s S₁ is closed while S₂ is left open. a. What is the time constant of the resulting circuit? Submit Answer Tries 0/10 b1. What is the current through the circuit at t = 0 s? b2. What is the current through the circuit after a long time has passed? Submit Answer Tries 0/10 c1. What is the magnitude of the induced emf at t = 0 s? c2. What is the magnitude of the induced emf after a long time has passed? Submit Answer Tries 0/10 d. After the current in the RL circuit has reached its final value (as in b2. above) the positions of the switches are reversed, with S₁ open and S₂. How long does it take for the current to reach a tenth of its initial value?
- In the circuit shown, both capacitors are fully charged by setting the switch in position 'a' 1. w2 wi C C2 The switch is then set to position 'b' and the resulting circuit oscillates at some fre- quency w. How does w compare to W1, the frequency is connected? of oscillation if only one capacitorA 4.4-μF capacitor has a voltage of 52 V between its plates. What must be the current in a 5.9-mH inductor, such that the energy stored in the inductor equals the energy stored in the capacitor? Number i ++++++ Ē Capacitor Units Inductor BAn inductor has a peak current of 300 μA when the peak voltage at 39 MHz is 2.5 V. You may want to review (Page 914). For help with math skills, you may want to review: Rearrangement of Equations Involving Multiplication and Division 1 Rearrangement of Equations Involving Multiplication and Division 2 ▼ ▼ Part A What is the inductance? Express your answer using two significant figures. VE ΑΣΦ L= 3.4007 10¯5 Submit Previous Answers Request Answer Part B BOY X Incorrect; Try Again; One attempt remaining Submit Previous Answers Request Answer If the voltage is held constant, what is the peak current at 78 MHz ? Express your answer using two significant figures. ΠΨΕ ΑΣΦ 12 1.5 107 ? ? X Incorrect; Try Again; One attempt remaining ΜΗ μA
- An inductor is connected across an oscillating emf. The peak current through the inductor is 2.0 A. ▼ Part A What is the peak current if the inductance L is doubled? Express your answer with the appropriate units. I = Submit Part B I = Submit Part C 0. μA Value I = Request Answer What is the peak current if the peak emf &o is doubled? Express your answer with the appropriate units. μA Value Request Answer μÀ Value Units Submit Request Answer C Units What is the peak current if the frequency w is doubled? Express your answer with the appropriate units. w B Units ? ? ?A 1.13-mF capacitor is connected to a North American electrical outlet (AVms = 120 V, f = 60.0 Hz). Assuming the energy stored in the capacitor is zero at t = 0, determine the magnitude of the current in the wires at t = S. 174 x Your response differs from the correct answer by more than 10%. Double check your calculations. Al Need Help? Read It Submit Answerb