Required Screenshots (This instruction box is to be deleted before submission of the Lab report) Place screenshots of measurements in this section. Table 1 : Calculated and measured values (Use Word or Excel to Create Plot) 6 Frequency (in Hz) Calculated Measured X L X C Z Ө V R 300 500 700 1k Resonant freq. All tables must have titles and all figures must have brief captions. All results are to be presented in both tabular and graphical forms. This section should include all raw data collected, e.g., voltage and current readings. Data representations and analysis are crucial in the engineering field. Data Presentation & Analysis (This instruction box is to be deleted before submission of the Lab report) This section is the most important section of the report. Use the Bode Plotter to measure the resonant frequency with C = 0.01 ♟ and record the value in Table 3. Calculate and record the resonant frequency with the new capacitor value in Table 3. Replace the 470 pF capacitor with a 0.01 ♟ capacitor. Use the Bode Plotter to measure the resonant frequency with C = 470 pF and record the value in Table 3. Calculate the resonant frequency with the new capacitor value in Table 3. Replace the 0.22 ♟ capacitor with a 470 pF capacitor. The frequency where the maximum gain occurs will be the resonant frequency.) 14. Run the simulation and use the cursor to find the maximum gain. ( Note : To measure the resonant frequency of a series RLC circuit using the Bode plotter, connect the input across the voltage source and the output across the resistor. Use the Bode Plotter to measure the resonant frequency with C = 0.22 ♟ and record the value in Table 3. Record the calculated resonant frequency from step 8 in Table 3. Figure 2: Series RLC Circuit with Bode Plotter 12. Remove the oscilloscope from the circuit and connect the Bode plotter as shown in Figure 2. From the above results the phase angle between V C and V L at the resonance frequency is _ degrees. Measure and record the peak voltage drop across the capacitor (V C ) and the inductor (V L ) in Table 2 at various frequencies listed. Address the following items in your Introduction: What is series resonance? (Give formula) How do capacitance and inductance affect resonance? 3Ĩ. State the objectives of the lab as well as the overall background of the relevant topic. I ntroduction (This instruction box is to be deleted before submission of the Lab report) What is an Introduction? In your own words, explain the reason for performing the experiment and give a concise summary of the theory involved, including any mathematical detail relevant to later discussion in the report. Use a Bode plotter to measure the resonant frequency. Identify the phase relation between current and voltage in a series RLC circuit. Calculate and verify the resonant frequency. Objectives of Week 4 Lab 1: Observe the effect of frequency on inductive and capacitive reactance. It needs to be succinct yet detailed enough for a person to know what this report deals with in its entirety. Think of it as a summary to include all work done. It should summarize the entire lab what you did, why you did it, the results, and your conclusion. The abstract should be complete in itself. Abstract (This instruction box is to be deleted before submission of the Lab report) What is an Abstract? This should include a brief description of all parts of the lab. Upon completion, you will submit this lab report and your working Multisim files to your instructor. Lab Report Instructions: (This instruction box is to be deleted before submission of the Lab report) Before starting on your lab report, please follow the following steps: 1) Follow the instructions listed provided in the lab instructions.
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