5V (+ 3 Ω “a” όλα 10 V ( + t = 0 “b” ΖΩ ΖΩ 0.25 F + v(t)
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- Inductive Circuits Fill in all the missing values. Refer to the following formulas: XL=2fLL=XL2ff=XL2L Inductance (H) Frequency (Hz) Inductive Reactance ( ) 1.2 60 0.085 213.628 1000 4712.389 0.65 600 3.6 678.584 25 411.459 0.5 60 0.85 6408.849 20 201.062 0.45 400 4.8 2412.743 1000 40.841In the figure, ɛ = 12.0 V, the time constant is 500us, and Imax = 200 mA. What is L? %3D S L R A. 500 µH B. 2.75 mH C. 30.0 mH D. 1.20 H llA positive charge Q moves with velocity v in a magnetic field B directed as shown. What is the magnetic force on the charge? B 70° +y x+< +z (out)
- Find T 0.5 ms 40 92 www www 892 160 92 20 mH wwwThe zero and poles of the circuit are: 10mH 10μF 102 VOUT O Z = 0, p = x (-0.5 ± j3.1225) x 10³ O Z = 1, p = x (-0.05 ± j3.1619) x 103 O Z = 0, p = x (-0.005 ± j3.1623) x 10° O Z = 1, p = x (-0.5 ± j3.1225) x 103 None of the above.Convert the given Delta circuit to Y and find R1 * RC RB 150 90 RA 120 37.5 ohms 50 ohms 30 ohms 80 ohms
- a) H= 50 pd ap delermine the Given the magnelic field fotal cuooent I cioculao passing fhoough the su oface 'n the 92 disection. ノ4. Find the equivalent inductance for the following circuit shown. ΤΗ 2 H 0000 3H xoxo 8.538 H O 5.739 H 21 H O 18.345 H elle SH 4H 0000 elle 6H 4Useful constants: k=9.00×109 N.m2/C2 ε0= 8.85×10-12 C2/N.m2 µ0=4π×10-7 T.m/A mp=1.67×10-27 kg me=9.11×10-31 kg e=1.6×10-19 C g=10.0 m/s2
- Identify which measurement this oscilloscope time difference reading is useful for. Oscilloscope-XSC1 Channel_B Channel_A 169.064 V 113.590 V -55.474 V Time T1 Reverse 250.000 us 89.282 V 122.375 V 33.093 V T2 382.576 us T2-T1 132.576 us Save Ext. trigger Timebase Scale: 200 us/Div X pos. (Div): 0 Channel A Scale: 100 V/Div Y pos. (Div): 0 Channel B Trigger Scale: 100 V/Div Y pos. (Div): 0 Edge: f 2 AB Ext Level: Y/T Add B/A A/B AC0 DC AC0 DC Single Normal Auto None O none of the above O phase shift O period+5V VDO EN Xtal 8ה 7 +5V Freq1 HGND | GND х Mhz Sensor0 crystal Freq26 5 Vss Out 04 PRE Xtal 1k Output HA7210IP 4 CLK CLR SN74HC7491 GND 0.01 μ GND +5V 4 +5V +5V +5V OE O/P3 0. 1µF | 47µF GND SG351P |2 x MHz GND GND Consider the Quartz Crystal Microbalance Sensor shown above, with crystal resonant frequency, x = 3.3 Mhz. You are given the following values: Active crystal area = 1.6 cm², and the change in frequency = - 10 Hz Calculate the change in mass, Am in nano gram, up to 2 decimal places. Answer:Find the Zth of the circuit below 100 mH a 100 N 247.49 cos (1000t + 45°) V 10 μF 100 mH