The circuit shown has components with values of ?=14.0R=14.0 ΩΩ, ?=0.110L=0.110 H, ?=1.25C=1.25 ?μF, and =12E=12 V. The switch is initially connected to point ?a for a long time, and then thrown to point ?b, resulting in oscillations.
The circuit shown has components with values of ?=14.0R=14.0 ΩΩ, ?=0.110L=0.110 H, ?=1.25C=1.25 ?μF, and =12E=12...
The switch in the figure below is connected to position a for a long time interval. At t = 0, the switch is thrown to position b. After this time, what are the following? (Let C = 1.10 mu F.) (a) the frequency of oscillation of the LC circuit Hz (b) the maximum charge that appears on the capacitor mu C (c) the maximum current in the inductor mA (d) the total energy the circuit possesses at t = 3.00...
The switch in the figure below is connected to position a for a long time interval. At t = 0, the switch is thrown to position b. After this time, what are the following? (Let C = 1.50 μF) 10.0 Ω a b0.100 H 12.0 (a) the frequency of oscillation of the LC circuit Hz (b) the maximum charge that appears on the capacitor με ur (c) the maximum current in the inductor MA (d) the total energy the circuit...
An LC circuit like the one in the figure below contains an 65.0 mH inductor and a 10.0 pF capacitor that initially carries a 175 UC charge. The switch is open for t < 0 and is then thrown closed at t = 0. lle (a) Find the frequency (in hertz) of the resulting oscillations. 197 HZ (b) At t = 1.00 ms, find the charge on the capacitor. 174 x Remember that your answer to part (a) is in...
An LC circuit like the one shown in Figure 32.16 contains an 95.0 mH inductor and a 24.0 µF capacitor that initially carries a 165 µC charge. The switch is open for t < 0 and then closed at t = 0. Figure 32.16 (a) Find the frequency (in hertz) of the resulting oscillations. Hz (b) At t = 1.00 ms, find the charge on the capacitor. µC (c) What is the current in the circuit?
An LC circuit like the one in the figure below contains an 80.0 mH inductor and a 30.0 µF capacitor that initially carries a 175 µC charge. The switch is open for t < 0 and is then thrown closed at t = 0. A rectangular loop forms an L C circuit. The left side of the loop contains a capacitor C carrying a charge Qmax, with the positively charged plate above the negatively charged plate. The right side of...
An LC circuit like the one in the figure below contains an 80.0 mH inductor and a 30.0 µF capacitor that initially carries a 175 µC charge. The switch is open for t < 0 and is then thrown closed at t = 0. A rectangular loop forms an L C circuit. The left side of the loop contains a capacitor C carrying a charge Qmax, with the positively charged plate above the negatively charged plate. The right side of...
In the circuit shown in the following figure(Figure 1) the capacitor has capacitance 25 uF and is initially uncharged. The resistor Ro has resistance 12 12. An emf of 80.0 V is added in series with the capacitor and the resistor. The emf is placed between the capacitor and the switch, with the positive terminal of the emf adjacent to the capacitor. The small circuit is not connected in any way to the large one. The wire of the small...
(a) A capacitor has a value of 5 μF. Explain in terms of electric charge what this means. (b) The 5 uF capacitor shown in the circuit below is initially uncharged. The circuit is connected to a computer and switch S is closed. The monitor of the computer displays a graph of current against time as the capacitor charges monitoT charging current/uA 30 20 10 0 . 2,3 4 time s computer The battery has negligible internal resistance. (i) Calculate...
4. The MOSFET in the circuit given below has Vi- 1 V, kn 0.8 mA/V2, and VA 40 V a) Find the values of Rs, Ro, and Ro so that Io -0.1 mA, the largest possible value for RD is used while a maximum signal swing at the drain of tl V is possible, and the input resistance at the gate is 10 MS2. b) Find the values of gm and ro at the bias point c) If terminal Z...
D 6.112 The MOSFET in the circuit of Fig. P6.112 has = 5 mA/V, and V, = 40 V. (a) Find the values of Rs,RD, and RG so that ID=0.4 mA, the largest possible value for R is used while a maximum signal swing at the drain of +0.8 V is possible, and the input resistance at the gate is 10 MS2. Neglect the Early effect. (b) Find the values of gm and r, at the bias point. (c) If...