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- 07:10, 27 January 2011 diff hist -275 Lab 3 RS →method 1. Using fitting line
- 07:09, 27 January 2011 diff hist 0 Lab 3 RS →1-50 kHz filter (20 pnts)
- 07:09, 27 January 2011 diff hist 0 N File:RS lab3 voltage gain m2.png current
- 07:03, 27 January 2011 diff hist 0 Lab 4 RS →phase shift (10 pnts)
- 07:02, 27 January 2011 diff hist +18 Lab 4 RS
- 07:01, 27 January 2011 diff hist +15 Lab 3 RS
- 07:00, 27 January 2011 diff hist +2 Lab 3 RS →Compare the theoretical and experimentally measured break frequencies. (5 pnts)
- 07:00, 27 January 2011 diff hist +55 Lab 4 RS →phase shift (10 pnts)
- 06:59, 27 January 2011 diff hist +344 Lab 4 RS →phase shift (10 pnts)
- 06:58, 27 January 2011 diff hist +539 Lab 4 RS →Compare the theoretical and experimentally measured break frequencies. (5 pnts)
- 06:58, 27 January 2011 diff hist -539 Lab 4 RS →phase shift (10 pnts)
- 06:57, 27 January 2011 diff hist -54 Lab 4 RS →phase shift (10 pnts)
- 06:57, 27 January 2011 diff hist -1 Lab 4 RS →phase shift (10 pnts)
- 06:56, 27 January 2011 diff hist -1 Lab 4 RS →phase shift (10 pnts)
- 06:56, 27 January 2011 diff hist -1 Lab 4 RS →phase shift (10 pnts)
- 06:56, 27 January 2011 diff hist +596 Lab 4 RS →phase shift (10 pnts)
- 06:50, 27 January 2011 diff hist +36 Lab 4 RS →1-50 kHz filter (20 pnts)
- 06:50, 27 January 2011 diff hist 0 N File:L4 volt gain.png current
- 04:53, 27 January 2011 diff hist +3 Lab 3 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 04:53, 27 January 2011 diff hist 0 N File:RS phase shift m1.png current
- 00:39, 27 January 2011 diff hist -1 Lab 4 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 00:39, 27 January 2011 diff hist 0 Lab 4 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 00:22, 27 January 2011 diff hist -2 Lab 3 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 00:21, 27 January 2011 diff hist 0 Lab 3 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 00:21, 27 January 2011 diff hist 0 Lab 3 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 00:20, 27 January 2011 diff hist 0 Lab 3 RS →Compare the theoretical and experimental value for the phase shift \theta. (5 pnts)
- 00:20, 27 January 2011 diff hist 0 N File:Phase table m2.png current
- 00:17, 27 January 2011 diff hist +1 Lab 3 RS →Compare the theoretical and experimental value for the phase shift \theta. (5 pnts)
- 00:17, 27 January 2011 diff hist +1 Lab 3 RS →Compare the theoretical and experimental value for the phase shift \theta. (5 pnts)
- 00:15, 27 January 2011 diff hist 0 Lab 3 RS →method 1. Using fitting line
- 00:11, 27 January 2011 diff hist +3 Lab 3 RS →1-50 kHz filter (20 pnts)
- 00:11, 27 January 2011 diff hist 0 N File:RS lab3 voltage gain m1.png current
- 19:10, 26 January 2011 diff hist 0 Lab 4 RS →Calculate and expression for \frac{V_{out}}{ V_{in}} as a function of \nu, R, and C.(5 pnts)
- 19:09, 26 January 2011 diff hist +1 Lab 3 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 19:08, 26 January 2011 diff hist 0 Lab 3 RS →Calculate and expression for \frac{V_{out}}{ V_{in}} as a function of \nu, R, and C. The Gain is defined as the ratio of V_{out} to V_{in}.(5 pnts)
- 06:19, 26 January 2011 diff hist -3 Lab 4 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 06:19, 26 January 2011 diff hist -2 Lab 3 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 06:18, 26 January 2011 diff hist -1 Lab 3 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 06:18, 26 January 2011 diff hist 0 Lab 4 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 06:17, 26 January 2011 diff hist +24 Lab 4 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 06:15, 26 January 2011 diff hist +266 Lab 4 RS →Calculate and expression for the phase shift \theta as a function of \nu, R, C and graph \theta -vs \nu. (20 pnts)
- 06:14, 26 January 2011 diff hist +83 Lab 4 RS →What is the phase shift \theta for a DC input and a very-high frequency input?(5 pnts)
- 06:14, 26 January 2011 diff hist 0 Lab 4 RS →Sketch the phasor diagram for V_{in}, V_{out}, V_{R}, and V_{C}. Put the current I along the real voltage axis. (30 pnts)
- 06:13, 26 January 2011 diff hist +41 Lab 4 RS →Sketch the phasor diagram for V_{in}, V_{out}, V_{R}, and V_{C}. Put the current I along the real voltage axis. (30 pnts)
- 06:13, 26 January 2011 diff hist 0 N File:L4 phase diagram.png current
- 06:01, 26 January 2011 diff hist +22 Lab 4 RS →Compare the theoretical and experimental value for the phase shift \theta. (5 pnts)
- 05:59, 26 January 2011 diff hist +181 Lab 4 RS →Compare the theoretical and experimental value for the phase shift \theta. (5 pnts)
- 05:58, 26 January 2011 diff hist +47 Lab 4 RS →Calculate and expression for \frac{V_{out}}{ V_{in}} as a function of \nu, R, and C.(5 pnts)
- 05:57, 26 January 2011 diff hist +6 Lab 4 RS →Calculate and expression for \frac{V_{out}}{ V_{in}} as a function of \nu, R, and C.(5 pnts)
- 05:55, 26 January 2011 diff hist -16 Lab 4 RS →Calculate and expression for \frac{V_{out}}{ V_{in}} as a function of \nu, R, and C.(5 pnts)