An ideal inductor L=100 mH is connected to a source whose peak potential difference is 65 V. a) If the frequency is 60 Hz. what is the current at 8 ms? What is the instantaneous power delivered to the inductor at this time? b) At what frequency would the peak current be 2.5 A?
Q: VL IV- 0 0.00 s -I V Current Voltage 0.01 $ İL 2 A 0 0.02 s -2 A
A: Given, A figure we need to find, (A) frequency = ? (B) Inductance L =?
Q: In an LC circuit containing a 0.032 H ideal inductor and a 1.92 x 10 F capacitor, the maximum charge…
A:
Q: A 70 μF capacitor with a 13 μC charge is connected across a 18 mH inductor. What is the charge on…
A: a
Q: A circuit consists of a 35 N resistor and a 580 mH inductor connected in series to a 12 V battery.…
A:
Q: A 22-mH inductor, an 7.9- resistor, and a 5.6-V battery are connected in series as in the figure…
A: To find the voltage drop across the resistor at t = 0, we need to first calculate the current…
Q: A 220 2 resistor, a 0.925 H inductor, and a 5.00 μF capacitor are connected in series across a…
A: “Since you have posted a question with multiple sub-parts, we will solve first three subparts for…
Q: Consider the LR circuit shown in the figure above: R₁=6.00 Ohms R₂=13.50 Ohms L=46.00 mH The battery…
A:
Q: An RL circuit consists of a resistor with a resistance of 13 Ohms and an inductor with an inductance…
A:
Q: (a) What is the characteristic time constant of a 23.9 mH inductor that has a resistance of 3.89 ?…
A:
Q: An inductor with inductance L and a charged capacitor with capacitance C are put in a single loop.…
A: Given data: The LC series circuit With inductance = L And a charged capacitor = C Required: The…
Q: A series RLC circuit consists of a 60 resistor, a 2.2 mH inductor, and a 720 nF capacitor. It is…
A:
Q: A 510-turn solenoid has a radius of 8.00 mm and an overall length of 14.0 cm. What is its…
A: Solution:-Given thatNumber of turns (N)=510Radius (R)=8 mm=0.008 mOverall length (L)=14 cm=0.14 m
Q: A 26-mH inductor, an 8.5- resistor, and a 5.8-V battery are connected in series as in the figure…
A: (a) Time constant, T = I/R I (t) = Io(1-e-t/T) ER(0) = R*I(0) ER(0) = 0 V (b) At t = T ER =…
Q: Consider a 27 mH inductor that has a resistance of 4.25 Ω. Part (a) What is the time constant, τ,…
A: Concept We have given a LR circuit, with inductance L = 27mH = 0.027 H , and resistance R = 4.25 Ω…
Q: In the L-C circuit in the figure, the ammeter reads a maximum current of I = 5.19 mA. The…
A:
Q: n LRC circuit contains a 200-ohm resistor, a 2.00-H coil, and an unknown capacitor. The circuit…
A:
Q: The figure below shows a circuit with a battery of EMF = 3.75 V, a resistor with R = 2.16 2, and an…
A:
Q: ANSWERS ASK YO max For the circuit shown in the figure below, AV, = 77.0 V, w = 65.0π rad/s, and L =…
A:
Q: What is the resonant frequency of a 0.590 mH inductor connected to a 45.0 µF capacitor?
A: Given data: Inductance (L) = 0.590 mH = 0.590×10-3 H Capacitance (C) = 45.0 μF = 45.0×10-6 F…
Q: A 4.4-μF capacitor has a voltage of 52 V between its plates. What must be the current in a 5.9-mH…
A: Energy stored in a Capacitor (C) in terms of Voltage (V): The energy (W) stored in a capacitor is…
Q: I just need parts A, E, and F. Thank you! A 10.0 μF capacitor is charged to 175 μC and then…
A: At the instant, the capacitor of capacitance C, completely discharges, all the energy stored in the…
Q: A 2.2 Henry inductor and a 177Ω resistor are connected in series with a 24V battery. A long time…
A: The inductance of the inductor L=2.2 H. The resistance of the resistor R=177 Ω. The voltage of the…
Q: If the current in an inductor changes by a factor of 3.6, by what factor does the the energy in the…
A:
Q: Calculate the current as time approaches infinity. Imax %3D Calculate the current at a time of 1.85…
A: Since you have posted a question with multiple subparts we will solve the three subparts posted in…
Q: A circuit consists of a 0.80 H inductor and a 3.5 ohm resistor. At t = 0 the current through the…
A: The current through the inductor can be written as It=I0e-RtL…
Step by step
Solved in 4 steps with 4 images
- An inductor of L = 6.95 H with negligible resistance is placed in series with a 8 = 15.7 V battery, a R = 3.00 resistor, and a switch. The switch is closed at time t = 0 seconds. L. Calculate the initial current at t= 0 seconds. ww R. 1(t = 0 s) = Calculate the current as time approaches infinity. Imax = Calculate the current at a time of 1.85 s. I(t = 1.85 s) = %3D %3D Determine how long it takes for the current to reach half of its maximum. S 0000An 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 ? ? ?An LC circuit has a 7.00 mH inductor. The current has its maximum value of 0.580 A at t = 0s. A short time later the capacitor reaches its maximum potential difference of 70.0 V Part A What is the value of the capacitance? Vp ΑΣφ. ? µF
- Initially, an inductor with no resistance carries a constant current. Then the current is brought to a new constant value twice as large. After this change, when the current is constant at its higher value, what has happened to the emf in the inductor?A capacitor is using 1.6 kVARs and has a capacitive resistance of 24 ohms. How much current is flowing through the inductor?A 3.5 mH inductor and a 4.5 mH inductor are connected in series and a time varying current is established in them. When the total emf of the combination is 16 V, what is the emf of the larger inductor?
- A loop of wire has a self-inductance of 5.5 mH. You pass a current of 9.0 Amps though the loop, and then drop the current to 0 at a contastant rate over 3.5 seconds. What is the EMF generated?The figure below shows a circuit with a battery of EMF = 3.75 V, a resistor with R = 2.162, and an inductor with L = 2.45 H. If the battery is connected at t = 0, at what time will the rate of energy stored in the inductor be equal to x = 1.89 times the power dissipated in the resistor? i S RIn a home stereo system, low sound frequencies are handled by large “woofer” speakers, and high frequencies by smaller “tweeter” speakers. For the best sound reproduction, low-frequency currents from the amplifier should not reach the tweeter. One way to do this is to place a capacitor in series with the 8.0 Ω resistance of the tweeter; one then has an RLC circuit with no inductor L (that is, an RLC circuit with L = 0). What value of C should be chosen so that the current through the tweeter at 200 Hz is half its value at very high frequencies?
- In a home stereo system, low sound frequencies are handled by large "woofer" speakers, and high frequencies by smaller "tweeter" speakers. For the best sound reproduction, low-frequency currents from the amplifier should not reach the tweeter. One way to do this is to place a capacitor in series with the 9.0 Ω resistance of the tweeter; one then has an RLC circuit with no inductor L (that is, an RLC circuit with L = 0). What value of C should be chosen so that the current through the tweeter at 200 Hz is half its value at very high frequencies?Your RL circuit has a characteristic time constant of 21.5 ns, and a resistance of 5.40 MΩ. A. What is the inductance (in H) of the circuit? B. What resistance (in MΩ) should you use (instead of the 5.40 MΩ resistor) to obtain a 1.00 ns time constant, perhaps needed for quick response in an oscilloscope?