Lab 3. Dc circuits and Ohm’s law of measurments Helina Wolfe Tannaz Farnoudi and Najah Rouse Physics 246-205 Professor Joe Renaud 09/23/13 Word count:1453 Abstract: The aim of this experiment was to understand the relationship between the variables of Ohm’s law and how they are part of an operation of an electric circuit. Introduction: This experiment was done in two parts. The first part consisted of understanding how to determine the current‚ voltage and resistance
Free Resistor Electrical resistance Electric current
Purpose: The purpose of this experiment is to study the basics of a direct current circuit. There are several parts to this experiment‚ where resistors are set up as parallel‚ series or both. We measure the potential difference and current measured by voltmeter and ammeter respectively. Also‚ we set up a Wheatson Bridge to measure the unknown resistor. Equipment: Voltmeter PCC 000218 Galvanometer PCC 000180
Premium Direct current Electric current Alternating current
EEEE 281 Experiment 3: Thévenin’s Equivalent Circuit From: Brett Johnson Computer Engineering To: Section 5 TA: Jen Russo‚ John Maguire Date: Performed: 3/10/16 Due: 3/20/16 Subject: Lab 3-Thévenin Equivalent Circuits Lab Partner(s): Nathan Lindberg Component Percentage of Grade % Score Comment Report Formatting 20 Hand Calculation: Voc/Isc Analysis 5 Hand Calculation: Test Signal 5 PSPICE: Setup Conditions 5 PSPICE: Data and Figures 10 PSPICE: Discussion
Premium Management Computer Project management
In course you will learn: y • About AC Voltage‚ Inductors and Capacitors • About diodes‚ filters and regulators. • About Bipolar Junction Transistors (BJTs) • How to troubleshoot circuits in the laboratory Mark Breakdown Mark Breakdown You can find this information in the Course Outline in Blackboard. • • • • • Lab Exam (Hands‐on) – 20 % Labs – 20 % L b 20 % Quizzes/home exercises – 15 % Midterm Test 20 % Midterm Test – 20 % Final Test – 25 % NOTE – You must be present in the lab and get
Premium Alternating current Phase Wave
ZEIT 1206 DEC1 Lab Report 1 DC Circuits - Analysis and Design Alexander Glover‚ z3422512 Abstract DC circuit analysis and design‚ play a massive role in electrical engineering and without the correct application of theory and practise in unison‚ nothing can be achieved in a true engineering sense. Engineering requires theory to develop and test constraints while also requiring practical application of theory in order to determine tolerance and practical results for industry purposes. The ability
Premium Ohm's law Resistor Electrical resistance
Fourth Edition‚ last update June 29‚ 2002 2 Lessons In Electric Circuits‚ Volume II – AC By Tony R. Kuphaldt Fourth Edition‚ last update June 29‚ 2002 i c 2000-2002‚ Tony R. Kuphaldt This book is published under the terms and conditions of the Design Science License. These terms and conditions allow for free copying‚ distribution‚ and/or modification of this document by the general public. The full Design Science License text is included in the last chapter. As an open and collaboratively
Premium Alternating current
Chapter 13 AC MEASUREMENT This chapter explains rectification for measurement and rectifying instruments. Knowledge of the circuit principles will help you use these instruments properly and measurements alternating current correctly. One of the most common and economical methods for measuring alternating currents is to rectify these currents and read the resultant DC on an analog or digital volt-ohm meter (VOM). You need to take many considerations into account when using rectification: what
Premium Rectifier Root mean square Voltage
A.C current meters Introduction An ammeter is a measuring instrument used to measure the electric current in a circuit. Electric currents are measured in amperes (A)‚ hence the name. Neither type of basic dc PMMC meter movement will correctly indicate an alternating current. There are‚ however‚ four basic types of meter movement that will indicate ac values:- Thermocouple Hot wire Electrodynamometer Iron-vane Electrodynamic ammeters An electrodynamic meter uses an electromagnet instead
Premium Electric current Alternating current Electricity
Alternating Current Theory - J R Lucas An alternating waveform is a periodic waveform which alternate between positive and negative values. Unlike direct waveforms‚ they cannot be characterised by one magnitude as their amplitude is continuously varying from instant to instant. Thus various forms of magnitudes are defined for such waveforms. The advantage of the alternating waveform for electric power is that it can be stepped up or stepped down in potential easily for transmission and utilisation
Premium Root mean square Alternating current Electrical impedance
UNIVERSITY CIRCUIT I LAB EEL 3111L FORMAL REPORT #2 Based On: EXPERIMENT #5 INSTRUCTOR: XXXXXXX I. ABSTRACT The following experiment confirms the validity of the Superposition Theorem. In the experiment in order to acquire the results by means of mathematically deriving them‚ one must use not only the Superposition Theorem but also Nodal Analysis and Current Division to get the same results as getting them experimentally. II. INTRODUCTION The idea behind the Superposition
Premium Volt Resistor