Equipotentials and Electric Fields

Slides:

Advertisements

Similar presentations

Chapter 25 Electric Potential.

Advertisements

1 Integers and the Number Line. 2 Constructing a Number Line A number line is drawn by choosing a starting position, usually 0, and marking off equal.

Experiments and Variables

EE188L EE I Laboratory Lab #2 Resistive Circuits.

Application – Xerographic Copiers

1) If a 4-  F capacitor and an 8-  F capacitor are connected in parallel, which has the larger potential difference across it? Which has the larger.

1 Lab #7 – Thevenin/Norton Activity #1 – finding the Thevenin/Norton Equivalent for the function generator –The function generator is a voltage source.

Copyright © 2009 Pearson Education, Inc. Lecture 4 – Electricity & Magnetism b. Electric Potential.

LED Display Prof. Betty Lise Anderson. Here’s what you’re going to build.

Experiment 3 Ohm’s Law.  The goals of Experiment 3 are:  To identify resistors based upon their color code.  To construct a two-resistor circuit using.

Experiment 1 Breadboard Basics

Circuits Lab ENGR 1181 Lab 3.

General Engineering Polytechnic University Laboratory 9: Electrical Filters.

4 Amp Load.500 Hard Line Cable SPSM 2 P/S Setup Configuration RF Signal Supplied by RG-6 RF Signal To TV via RG-6 Remove Central Fuse Move 20A fuse from.

Circuits Lab ENGR 1181 Lab #3. Circuits in the Real World Many engineering fields and products require the use of circuits. Some are more complicated.

Forging new generations of engineers

Circuits Lab Introduction

With a knowledge of how to connect cells in parallel and series, we can figure out how to arrange batteries to deliver a desired voltage, and in some cases,

HIGH VOLTAGE TECHNIQUES electrostatic field analysis methods Assistant Professor Suna BOLAT Eastern Mediterranean University Department of Electric & Electronic.

Do Now 1.Obtain your data and finalize all of the calculations. 2.If you are finished with #1, then work with your partner on finalizing your introduction.

Today’s agenda: Electric potential of a charge distribution. You must be able to calculate the electric potential for a charge distribution. Equipotentials.

Lab Report Guidelines ELEC 302 Spring Basic Requirements Succinct and clearly written. Sufficient description to enable an engineer familiar with.

MANUAL DRAFTING SETUP Introduction to Drafting and Design.

Equipotential and Electric Field Mapping Broadneck AP Physics February 2015.

Chapter 16 - Electricity Warm-up 1. Why are power outages more common during thunderstorms? 2. Make a list of electrical devices in your home. What do.

Circuits Lab ENGR 1181 Lab 3. Circuits in the Real World All engineering fields employ electronic circuits – electric cars, biomedical devices, computers,

Vadodara Institute of Engineering kotanbi Active learning Assignment on Single phase AC CIRCUIT SUBMITTED BY: 1) Bhatiya gaurang.(13ELEE558) 2)

Electric Fields. Central Questions What are the shapes of equipotential lines? What is the shape and strength of an electrical field?

Static Electricity, Electric Forces, Electric Fields, Electric Potential Energy, Electric Potential, Capacitors.

ENGR 1181 First-Year Engineering Program College of Engineering Engineering Education Innovation Center First-Year Engineering Program Solar Cell Lab.

Chapter 16 Electrical Energy AndCapacitance. General Physics Review - Electric Potential for a system of point charges.

Investigating Basic Circuits Post-Activity Discussion

Graphics in a computers memory How a picture (i.e. a graphic) is stored in a computers memory A computer screen is made up of little dots, called PICture.

Chapter 21 Electric Potential.

Day 17: Equipotential Surfaces

Basic Equipment and Schematic Reading. Objectives Learn the basic equipment that will be used in the Lab. Learn some of the basic symbols used on electrical.

RC Circuits MS&T Physics 2135, Lab O4. Objectives  Measure the time constant of a series RC circuit.  Determine C Note: You will be using a 1F, 5V electrolytic.

Resistance of a Diode MS&T Physics 2135, Lab E3. MS&T Physics 2135, Lab E3: Resistance of a DiodeSlide 2/5 Objectives  Determine how the resistance of.

Current Balance MS&T Physics 2135, Lab E4.

Lab 1-4 Constructing a Field Map

Ying Yi PhD HCC Lab 2: Electric Field Lines 1. Electricity phenomena 2.

Teacher Notes: There is a famous problem in Discrete Mathematics called ‘The Bridges of Konigsberg’ in which it is said to be impossible to cross each.

Chapter 13 Electric Energy and Capacitance. Electric Potential Energy The electrostatic force is a conservative force It is possible to define an electrical.

Date of download: 9/19/2016 Copyright © 2016 SPIE. All rights reserved. (a) Experimental setup to measure the nitrogen fluorescence at 337 nm. (b) The.

How does an electrical circuit work?

Chapter 18: Electric Potential and Capacitance

ELECTRICAL CIRCUITS Multimeter.

Square Within A Square.

Instrumentation & Root Mean Square Voltage

Drawing Alcoves using One Point Perspective

Integers and the Number Line

PHYSICS CLASS ACTIVITY

Electric potential of a charge distribution. Equipotentials.

Figure 17.1 (a) As an engine is accelerated under a load, the engine vacuum drops. (b) The relationship between absolute pressure, vacuum, and gauge pressure.

Slope Fields If you enjoyed connecting the dots, you’ll love slope fields It is a graphical method to find a particular solution to any differential equation.

Circuits Lab Introduction

Forging new generations of engineers

Integers and the Number Line

Create a paper craft for any object that makes a sound

Do Now Obtain your data and finalize all of the calculations and statistical analysis of this data. If you are finished with #1, then work with your partner.

Geometric Forms Still Life

Figure 25.2 (a) When the electric field E is directed downward, point B is at a lower electric potential than point A. When a positive test charge moves.

Figure (a) Physical arrangement of a p–n junction

CTY SAR FCPS Shawn Lupoli, Elliot Tan

Electromagnetic Lab Get ready for bell work!

Figure (a) Physical arrangement of a p–n junction

Do Now Obtain your data and finalize all of the calculations and statistical analysis of this data. If you are finished with #1, then work with your partner.

Electromagnetic Lab Get ready for bell work!

Electromagnetic Lab Get ready for bell work!

Integers and the Number Line

Presentation transcript:

Equipotentials and Electric Fields MS&T Physics 2135, Lab O2

Objectives Identify equipotential lines for a configuration of conductors. Understand the relationship between equipotential lines and electric field lines Note: You should sketch a guess of what the equipotential lines of your particular arrangement of electrodes will look like before you get started. MS&T Physics 2135, Lab O2: Equipotentials, Electric Fields

Experimental Setup The red DMM lead is used as a voltage probe. The black DMM lead is connected to the Power Supply’s COM port. Here, VPS = 4V. You can choose anything between 1V and 5V. MS&T Physics 2135, Lab O2: Equipotentials, Electric Fields

Creating a Field Between the Conductors One conductor is connected to the +6V port of the Power Supply. Here, it’s the one at right. The other conductor (at left) is connected to COM. The electrodes are pinned to the center of the conductors to minimize error. Mark the electrode and conductor locations on the engineering paper! MS&T Physics 2135, Lab O2: Equipotentials, Electric Fields

Marking Points to Construct Equipotential Lines Using the banana clip on the red DMM lead, find a point at the desired voltage. Press firmly to make a mark. Make several marks all at the same voltage to allow an equipotential line to be constructed. Repeat for several voltages. You want a clear picture of the field, so pay close attention to regions of rapid change (i.e. pointy parts)! MS&T Physics 2135, Lab O2: Equipotentials, Electric Fields

Example of Marks Made The electrodes and 0V conductor are marked. The +4V conductor was off page, which is noted. The line at left was made by pressing the probe while continuously tracing points at +3V. This works, but is error-prone. Dots are preferred. Note: This diagram is incomplete! It needs more equipotentials near the 0V electrode. MS&T Physics 2135, Lab O2: Equipotentials, Electric Fields

Equipotentials, Field Lines, and Calculation of E at Point A Equipotential (purple) and field (pink) lines have been drawn. Point A has been chosen and ΔV and Δx have been noted (red). Make the equipotential and field lines distinguishable. Note: This diagram is incomplete. It should have more field lines. MS&T Physics 2135, Lab O2: Equipotentials, Electric Fields