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...
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)...
Cupa Chand Output Choi Vitor OAM + DON 0.00 000 0.000 Time! Vlage CHAV 25 Maar Run 25 4455562.216V Series LCR Resonance Exp 8.1 Voltage across resistor vs frequency L = 3.3 mH, C = 0,39 uF, R= 1002 VOCAN 25 10 . 2000 5010 TOO 8000 9000 4010 FR001 Figure 1 Data from Exp 8.1: voltage across resistor(V) versus frequency f 2. Read fre (exp) from Fig. 1 and record it in Table 1. Calculate fres (theory) and record...
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...
Answer question 2 using table 2
Table Comparison of exp with theory at the three frequencies (L = 3.3 mH, C = 0,39 uF, R = 100 22 ) f = 1000 Hz f=fres t(! - t(0) -2.1 x 10-4 0 f = 8000 Hz .16 10-4 X R -1.31 rad 0 .804 rad exp theory -1.31811 rad 0 .8544706 rad 2. Based on the calculated phase angles Pitheory Or Perp in Table 2, draw a phasor diagram for each...
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 =...
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...
How do you draw the phasor diagram?
L=3.3 mH
C=0.39 uF
R=100 ohms
in case you need it in order to see table 2 work
2. Based on the calculated phase angles Peneos, or Pexp in Table 2, draw a phasor diagram for each of the two frequencies: f = 1000 Hz and 8000 Hz, and complete the following two statements. (a) At f = 8000_Hz, the voltage (1) across the signal generator leads the current (i). (b) At f...
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 =...