Analysis For each position for the oscillator frequency knob list and and compute the frequency. For...
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Analysis For each position for the oscillator frequency knob list and and compute the frequency. For each frequency setting, calculate the phase velocity, V. given by and the group velocity V₂ eq.14.2.3, class text eq. 14.2.11, class text where c = velocity of light in free space. 1) Neatly tabulate all data. 2) Plot v/c vs. X/X and v/c vs / onto one graph. 3) Plot a graph of 1/g² against 102 This graph has to be done on proper graph paper! From the graph, find the value of the cut-off wavelength and a (see eq. 14.2.7, class text). Compare from the graph above and as measured on the 4-8 GHz source with the theoretical value. 5) Calculate the theoretical values for the above steps. For this use f-8 GHz to 12 GHz in steps of 500 MHz. Add the plots of the theoretical results onto the same graphs from the experimental data for direct comparison. Just need help with question 5 if possible, don't even have to show all steps from 8GHz to 12GHz, just do a whole calculation for one of them. Analysis For each position for the oscillator frequency knob list and and compute the frequency. For each frequency setting, calculate the phase velocity, V. given by and the group velocity V₂ eq.14.2.3, class text eq. 14.2.11, class text where c = velocity of light in free space. 1) Neatly tabulate all data. 2) Plot v/c vs. X/X and v/c vs / onto one graph. 3) Plot a graph of 1/g² against 102 This graph has to be done on proper graph paper! From the graph, find the value of the cut-off wavelength and a (see eq. 14.2.7, class text). Compare from the graph above and as measured on the 4-8 GHz source with the theoretical value. 5) Calculate the theoretical values for the above steps. For this use f-8 GHz to 12 GHz in steps of 500 MHz. Add the plots of the theoretical results onto the same graphs from the experimental data for direct comparison. Just need help with question 5 if possible, don't even have to show all steps from 8GHz to 12GHz, just do a whole calculation for one of them.
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Related Book For
Electronic Devices and Circuit Theory
ISBN: 978-0135026496
10th edition
Authors: Robert L. Boylestad, Louis Nashelsky
Posted Date:
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