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Cupa Chand Output Choi Vitor OAM + DON 0.00 000 0.000 Time! Vlage CHAV 25 Maar...
1. Data from Exp 8.1 are displayed in Figure 1. (L = 3.3 mH, C =...
1. Data from Exp 8.1 are displayed in Figure 1. (L = 3.3 mH, C = 0.39 uF, R1 = 100 2) 8 8 4 Vo v G vo Monitorin 6. Monitor Run 3 S4 2 4 1 2 0 CITO' no 0 Dutput votre choi Votage CHAM 0 N -6 -3 -5 -8 0 8 0 0000 0.0001 0.0002 0.0004 0.0005 0.000 Times) Voltage, CA 3.0 Monitor Run Series LCR Resonance Exp 8.1 Voltage across resistor vs frequency 2.5...
Provided data for Exp 8 and instructions for data analysis and lab report 1. Data from...
Provided data for Exp 8 and instructions for data analysis and lab report 1. Data from Exp 8.1 are displayed in Figure 1. (L = 3.3 mH, C = 0.39 uF, R2 = 100 22) 4 Vo v vo 6 Monitor Run 3 Monitor Run - 4 Output Voltage, Ch 01 ( 0 utput Voltage -3 -5 -8 8 0.0000 0.0001 0.0002 0.0004 0.0009 0 Voltage, Ch AM 0.0003 Time(s) v 3.0 Monitor Run Series LCR Resonance Exp 8.1 Voltage...
Questions and exrcises: 1. Show the details of your calculations on Pexp and Poheory (Table 2)....
Questions and exrcises: 1. Show the details of your calculations on Pexp and Poheory (Table 2). Record in Table 2 the measured values of t(Up) and t() at the three frequencies Table 2 Measured values of t(UR) and t(v) at the three frequencies (L = 3.3 mH, C = 0,39 uF, R = 100 2 ) f = 1000 Hz f = fres(theory) t(r) (8) 0.00125 2.27 * 10^-4 0.00104 2.28 * 10^-4 9 Calculate Perp and Preary f =...
Please show with steps :) 3. Data from Measurements #1 to #3 in Exp 8.2 are...
Please show with steps :)
3. Data from Measurements #1 to #3 in Exp 8.2 are displayed in Figure 2. 4 0.00125 5.4.977v 2.76000x105.4974V 1 0.00104 5. 1173 O 00 -02 04 -06 2.76000x10.53.575 V 4400H.. 0.00025 0.00030 0.00015 0.00020 0.00035 0.00040 0.00045 1000 FC 0.0005 0.0008 0.0010 0.0012 0.0014 0.0016 0.0018 0.0020 Time is Oraph tide here! 3 5 *OVOM rachtle here! Series LCR resonance Exp 8.2 phase angle versus frequency 38000 1.54000x10 5.2.788 v 1 Voltage. CHAV) 1.48000x10.5.4966...
soooo completely lost, please show your work thank you :-) (2nd attempt, unfortunately could not read...
soooo completely lost, please show your work thank you :-)
(2nd attempt, unfortunately could not read first's tutor
handwriting)
Record in Table 2 the measured values of t(v) and (U) at the three frequencies Table 2 Measured values of t(Ux) and (U) at the three frequencies (L = 3.3 mH, C = 0,39 uF, R = 100 2 ) f = 1000 Hz f = f(theory) f = 8000 Hz 1x) (8) (0) 3. Data from Measurements #1 to #3...
please share work for 1) (exp) and (theory) and thank you! you are right, included Questions...
please share work for 1) (exp) and (theory) and thank
you!
you are right, included
Questions and exrcises: 1. Show the details of your calculations on Pexp and Prheory (Table 2). Record in Table 2 the measured values of t(Up) and t() at the three frequencies Table 2 Measured values of t(ur) and t() at the three frequencies (L = 3.3 mH, C = 0,39 uF, R = 100 S2 ) f = 1000 Hz f = fres(theory) (Ox) (5)...
table 3 please and share work :) table 2 calculations if needed Table 2 Measured values...
table 3 please and share work :)
table 2 calculations if needed
Table 2 Measured values of t(Ux) and t(U) at the three frequencies (L = 3.3 mH, C = 0,39 JF, R = 100 22 ) f = 1000 Hz f = fra theory) (UR) (8) 0.00125 2.27* 10^-4 t() 0.00104 2.28 * 10^-4 f = 8000 Hz 1.25 * 10^-4 1.64*10^-4 Calculate Perp and them, at the three frequencies listed in Table 3. Per and Punerary will be...
so completely lost, please show your work thank you :-) heres what they wrote if it...
so completely lost, please show your work thank you :-)
heres what they wrote if it helps... "A' for effort and i
appreciate but if you could please rewrite that would be amazing!
ty
Record in Table 2 the measured values of t(v) and (U) at the three frequencies Table 2 Measured values of t(Ux) and (U) at the three frequencies (L = 3.3 mH, C = 0,39 uF, R = 100 2 ) f = 1000 Hz f =...
please use multisim to answer all the parts. EXPERIMENT 3 TESTING SERIES & PARALLEL RESONANCES Objectives:...
please use multisim to answer all the parts.
EXPERIMENT 3 TESTING SERIES & PARALLEL RESONANCES Objectives: To examine the conditions of resonances To observe the resonant circuit properties Equipment & components: A personal computer with Multisim software Preview questions: 1. How does the resonant frequency relate to the inductance and capacitance in a series LC circuit? 2. When the circuit in Figure 1 is tuned to resonant frequency, how does the voltage cross the resistor relate to the applied voltage?...
1. Data from Exp 8.1 are displayed in Figure 1. (L = 3.3 mH, C = 0.39 uF, R1 = 100 2) 8 8 4 Vo v G vo Monitorin 6. Monitor Run 3 S4 2 4 1 2 0 CITO' no 0 Dutput votre choi Votage CHAM 0 N -6 -3 -5 -8 0 8 0 0000 0.0001 0.0002 0.0004 0.0005 0.000 Times) Voltage, CA 3.0 Monitor Run Series LCR Resonance Exp 8.1 Voltage across resistor vs frequency 2.5...
Provided data for Exp 8 and instructions for data analysis and lab report 1. Data from Exp 8.1 are displayed in Figure 1. (L = 3.3 mH, C = 0.39 uF, R2 = 100 22) 4 Vo v vo 6 Monitor Run 3 Monitor Run - 4 Output Voltage, Ch 01 ( 0 utput Voltage -3 -5 -8 8 0.0000 0.0001 0.0002 0.0004 0.0009 0 Voltage, Ch AM 0.0003 Time(s) v 3.0 Monitor Run Series LCR Resonance Exp 8.1 Voltage...
Questions and exrcises: 1. Show the details of your calculations on Pexp and Poheory (Table 2). Record in Table 2 the measured values of t(Up) and t() at the three frequencies Table 2 Measured values of t(UR) and t(v) at the three frequencies (L = 3.3 mH, C = 0,39 uF, R = 100 2 ) f = 1000 Hz f = fres(theory) t(r) (8) 0.00125 2.27 * 10^-4 0.00104 2.28 * 10^-4 9 Calculate Perp and Preary f =...
Please show with steps :)
3. Data from Measurements #1 to #3 in Exp 8.2 are displayed in Figure 2. 4 0.00125 5.4.977v 2.76000x105.4974V 1 0.00104 5. 1173 O 00 -02 04 -06 2.76000x10.53.575 V 4400H.. 0.00025 0.00030 0.00015 0.00020 0.00035 0.00040 0.00045 1000 FC 0.0005 0.0008 0.0010 0.0012 0.0014 0.0016 0.0018 0.0020 Time is Oraph tide here! 3 5 *OVOM rachtle here! Series LCR resonance Exp 8.2 phase angle versus frequency 38000 1.54000x10 5.2.788 v 1 Voltage. CHAV) 1.48000x10.5.4966...
soooo completely lost, please show your work thank you :-)
(2nd attempt, unfortunately could not read first's tutor
handwriting)
Record in Table 2 the measured values of t(v) and (U) at the three frequencies Table 2 Measured values of t(Ux) and (U) at the three frequencies (L = 3.3 mH, C = 0,39 uF, R = 100 2 ) f = 1000 Hz f = f(theory) f = 8000 Hz 1x) (8) (0) 3. Data from Measurements #1 to #3...
please share work for 1) (exp) and (theory) and thank
you!
you are right, included
Questions and exrcises: 1. Show the details of your calculations on Pexp and Prheory (Table 2). Record in Table 2 the measured values of t(Up) and t() at the three frequencies Table 2 Measured values of t(ur) and t() at the three frequencies (L = 3.3 mH, C = 0,39 uF, R = 100 S2 ) f = 1000 Hz f = fres(theory) (Ox) (5)...
table 3 please and share work :)
table 2 calculations if needed
Table 2 Measured values of t(Ux) and t(U) at the three frequencies (L = 3.3 mH, C = 0,39 JF, R = 100 22 ) f = 1000 Hz f = fra theory) (UR) (8) 0.00125 2.27* 10^-4 t() 0.00104 2.28 * 10^-4 f = 8000 Hz 1.25 * 10^-4 1.64*10^-4 Calculate Perp and them, at the three frequencies listed in Table 3. Per and Punerary will be...
so completely lost, please show your work thank you :-)
heres what they wrote if it helps... "A' for effort and i
appreciate but if you could please rewrite that would be amazing!
ty
Record in Table 2 the measured values of t(v) and (U) at the three frequencies Table 2 Measured values of t(Ux) and (U) at the three frequencies (L = 3.3 mH, C = 0,39 uF, R = 100 2 ) f = 1000 Hz f =...
please use multisim to answer all the parts.
EXPERIMENT 3 TESTING SERIES & PARALLEL RESONANCES Objectives: To examine the conditions of resonances To observe the resonant circuit properties Equipment & components: A personal computer with Multisim software Preview questions: 1. How does the resonant frequency relate to the inductance and capacitance in a series LC circuit? 2. When the circuit in Figure 1 is tuned to resonant frequency, how does the voltage cross the resistor relate to the applied voltage?...
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