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Name: ENGT 3050 Fundamentals of Electricity LAB EXERCISE #3 Series and Parallel Circuits Objectives: The objective of this exercise is to examine Kirchhoff's Voltage and Current Laws. Kirchhoff's Voltage Law (KVL) states, for a closed loop series path the algebraic sum of all the voltages around any closed loop in a circuit is equal to zero. Kirchhoff's Current Law (KCL) states, for a parallel path the total current entering a circuits junction is exactly equal to the total current leaving...
Pre-lab EM-5 Ohm's Law and Kirchhoff's Rules Ohm's Law The resistance R of a device can be determined by either directly measuring the resistance using an ohmmeter, or by measuring the current I through it and the voltage Vacross it, and then calculating R using Ohm's Law V R= (1) If the voltage across a resistor is 10V, and the current passing through it is 2.5 mA. of the resistor? What is the resistance R= Ω. Kirchhoffs Loop Rule Around...
ENGR 1181 Lab 3: Circuits Preparation Material Lab 3: Circuits Lab-Pre-lab Assignment Team Seat No. Name This is an individual assignment Solve the five problems below and hand it in at the beginning of the Circuits Lab. Show all your work Problem 1. Ohm's Law For the circuit below, calculate the value of the resistor R which would cause the current of 2.5 mA to flow in the circuit What voltage would you measure across the resistor? Show your calculations....
Fall-18 o ot for e Figure-4 parallel connection Voltage Table-2 Data table for serics circuit e) Repeat part e for the circuit given in figure 5 Vs Figure-5 series and parallel combination circuit Element Voltage Current Source Table-3 Data table for series and parallel combined circuit ost Lab: Q.1) Use the Kirchhoft's voltage and current laws to verify your answer in part e. Q2) Validate, using DC circuit analysis (simple series parallel equivalents) techniques, that the voltage and currents you...
Pre-lab Assignment Experiment 21-A Simple Electrical Circuits 1. (2 pts) Capacitors need to be treated with a little bit of respect and used carefully. What are two things mentioned in the lab about which you should be careful when using capacitors? 2. Suppose a light bulb is rated for a voltage of 1.8 V. At this voltage it draws a current of 0.054 A. a. (1 pt) Using Ohm’s Law, determine the resistance of the bulb. Show your work. b....
Please help me! Including the simulations, waveforms and plots ;___; Thank you so much! Pre-lab Assignment P1.Simulate the circuit of Figure 1, assuming that the diode is the 1N4148 and R P1. Simulate the circuit of Figure 1, assuming that the diode is the 1N4148 and R 1 k. Also Also assume that v is a 1-kHz symmetrical triangular voltage whose peak-to-peak swing is 24 volts. Further, assume the source resistance Rs to be 50 Ω Present the waveforms of...
ANALYSIS Use your experimental results to analyze the circuit in terms of Kirchhoff net current fow into and out of each of the four nodes, and determine whetheC s Rules. Consider supported by your data. Determine the net voltage drop around at leaston Sign determine whether or not your data supports the loop rule. (Pay close attosed loops convention.) In adition, verify ir Ohm's law is satisfied for at least three resistors and for the total reji >Q12: Why do...
Fall 2019 ECEN 206 Lab 4 Thevenin Equivalent Circuits Due First week of November Introduction: This lab focuses on the Thevenin equivalent circuit and maximum power transfer theorems Complex circuits are often replaced with their Thevenin equivalent to simplify analysis. For example, in the analysis of large industrial power systems the Thevenin equivalent is used in short circuit studies. Maximum power transfer is also an important concept which allows the designer to determine an optimal design when power is a...
is the wire used in this experiment? Show numerically 2) (Note: This question has a long preamble, but not to worry... the question itself is straightforward). In general, the devices we use in our circuits have some internal impedance (resistance is a specific form of impedance). When we use a current meter or function generator in series (as in this experiment) with our circuit elements, we would ideally like these devices to have zero impedance, so they help us obtain...
EE 282-Circuit I Pre-Lab 9 Maximum Power Transfer Theorem Name Concepts: In this pre-lab we will be leaming about Maximum Power Transfer Theorem. Maximum power is transferred to the load when the load resistance equals the thexenin equivalent, and we carry out the analysis using Thevenin's equivalent circuit. In order to do this, first build the following circuit on Mutism. 1 R1 5.1k0 R3 2 V1 R2 8kQ 6.8㏀ Fig. 1 Part 1: To find the Thevenin equivalent resistance, we...