Capacitors. How long did the LED remain lit when the capacitors were connected in series?

Similar documents
Figure 1: Capacitor circuit

shown in Fig. 4, is initially uncharged. How much energy is stored in the two capacitors after the switch S is closed for long time?

Fig. 1 Fig. 2. Calculate the total capacitance of the capacitors. (i) when connected as in Fig. 1. capacitance =... µf

How many electrons are transferred to the negative plate of the capacitor during this charging process? D (Total 1 mark)

2005 AP PHYSICS C: ELECTRICITY AND MAGNETISM FREE-RESPONSE QUESTIONS

[1] (b) Fig. 1.1 shows a circuit consisting of a resistor and a capacitor of capacitance 4.5 μf. Fig. 1.1

Physics 212 Midterm 2 Form A

Capacitance. Welcome Back to Physics Micheal Faraday by Thomas Phillips oil on canvas

CHAPTER 18 ELECTRIC POTENTIAL

PHYS 2135 Exam II March 20, 2018

Version 001 CIRCUITS holland (1290) 1

P114 University of Rochester NAME S. Manly Spring 2010

Physics 2135 Exam 2 October 18, 2016

Ch. 16 and 17 Review Problems

UNIT G485 Module Capacitors PRACTICE QUESTIONS (4)

The next two questions pertain to the situation described below. Consider a parallel plate capacitor with separation d:

Study Guide #2. L. Colonna-Romano/T. Keil. Electricity and Magnetism

, where the sum is over all pairs of charges (q 1, q 2 ) that are

1. How much charge is stored in a capacitor, whose capacitance C = 2µF, connected to a 12V battery?

Alternating Current Circuits. Home Work Solutions

AP Physics C. Electric Circuits III.C

Lab 8 Simple Electric Circuits

Study Guide #2. L. Colonna-Romano/T. Keil. Electricity and Magnetism

Electric Potential Energy Conservative Force

Select the response that best answers the given statement. Be sure to write all final multiple choice answers on your Scantron answer sheet.

Basics of Network Theory (Part-I)

Physics 212 Spring 2009 Exam 2 Version C (832725)

Physics 126 Fall 2004 Practice Exam 1. Answer will be posted about Oct. 5.

PHY 131 Review Session Fall 2015 PART 1:

Phys102 Second Major-181 Zero Version Coordinator: Kunwar, S Monday, November 19, 2018 Page: 1

Electric Potential Practice Problems

4) A 3.0 pf capacitor consists of two parallel plates that have surface charge densities of 1.0

Question 1. The figure shows four pairs of charged particles. For each pair, let V = 0 at infinity and consider V net at points on the x axis.

Lab 4 RC Circuits. Name. Partner s Name. I. Introduction/Theory

CHAPTER 6. Inductance, Capacitance, and Mutual Inductance

Exam 1--PHYS 102--Spring 2013

104 Practice Exam 1-2/21/02

AP Physics Electricity and Magnetism #3 Capacitors, Resistors, Ohm s Law, Electric Power

COLLEGE PHYSICS Chapter 19 ELECTRIC POTENTIAL AND ELECTRIC FIELD

Electric Field of a uniformly Charged Thin Spherical Shell

P202 Practice Exam 2 Spring 2004 Instructor: Prof. Sinova

Physics 2135 Exam 2 October 20, 2015

ELECTROMAGNETIC OSCILLATIONS AND ALTERNATING CURRENT

Physics 1B Electricity & Magnetism. Frank Wuerthwein (Prof) Edward Ronan (TA) UCSD

Exam 1--PHYS 202--S12

Laboratory Worksheet Experiment NE04 - RC Circuit Department of Physics The University of Hong Kong. Name: Student ID: Date:

1) Two lightbulbs, one rated 30 W at 120 V and another rated 40 W at 120 V, are arranged in two different circuits.

Unit 21 Capacitance in AC Circuits

a. Clockwise. b. Counterclockwise. c. Out of the board. d. Into the board. e. There will be no current induced in the wire

Solution to Quiz 2. April 18, 2010

To receive full credit, you must show your work (including calculations and formulas used).

Capacitors in Series and Parallel *

Electric Potential Energy Chapter 16

Physics 42 Exam 2 PRACTICE Name: Lab

PH213 Chapter 24 Solutions

Phys 2025, First Test. September 20, minutes Name:

Exam 1--PHYS 202--Spring 2013

ECE2262 Electric Circuits. Chapter 6: Capacitance and Inductance

not to scale Show that the potential difference between the plates increases to about 80 V. Calculate the energy that is now stored by the capacitor.

Q1. Three point charges are arranged as shown in FIGURE 1. Find the magnitude of the net electrostatic force on the point charge at the origin.

Physics 2135 Exam 2 March 22, 2016

Potential from a distribution of charges = 1

Agenda for Today. Elements of Physics II. Capacitors Parallel-plate. Charging of capacitors

Physics 2B Winter 2012 Final Exam Practice

Electronics Capacitors

Today s agenda: Capacitors and Capacitance. You must be able to apply the equation C=Q/V.

A) I B) II C) III D) IV E) V

AP Physics C Electricity and Magnetism

Phys222 W16 Exam 2: Chapters Key. Name:

Physics 196 Final Test Point

4 pt. (in J) 3.A

Electrical Circuits Lab Series RC Circuit Phasor Diagram

Switched Capacitor Circuits II. Dr. Paul Hasler Georgia Institute of Technology

2000 February 25 Exam I Physics 106

Physics 4B Chapter 31: Electromagnetic Oscillations and Alternating Current

FINAL EXAM - Physics Patel SPRING 1998 FORM CODE - A

Which one of the pipes emits sound with the lowest frequency? Which one of the pipes emits sound with the next lowest frequency?

AP Physics B Notes: Ch 16: Electric Potential Name:

Agenda for Today. Elements of Physics II. Capacitors Parallel-plate. Charging of capacitors

Capacitor Action. 3. Capacitor Action Theory Support. Electronics - AC Circuits

ECE2262 Electric Circuits. Chapter 6: Capacitance and Inductance

Capacitors. The charge Q on a capacitor s plate is proportional to the potential difference V across the Q = C V (1)

IMPORTANT Read these directions carefully:

PHYSICS A Forces, Fields and Energy. OXFORD CAMBRIDGE AND RSA EXAMINATIONS Advanced GCE. 1 hour 30 minutes

PhysicsAndMathsTutor.com 1

9. M = 2 π R µ 0 n. 3. M = π R 2 µ 0 n N correct. 5. M = π R 2 µ 0 n. 8. M = π r 2 µ 0 n N


Application of Physics II for. Final Exam

Exam 1 Multiple Choice Practice Problems Physics 1251 TA: Clark/Sullivan

AC Circuits Homework Set

Name: Class: Date: Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

Physics 2B Notes - Capacitors Spring 2018

Chapter 25. Capacitance

Physics for Scientists & Engineers 2

Chapter 24 Capacitance and Dielectrics

Physics (

Properties of Capacitors and its DC Behavior

Name Student ID Score

Circuits Practice Websheet 18.1

Circuit Analysis-II. Circuit Analysis-II Lecture # 5 Monday 23 rd April, 18

Transcription:

Labs for College Physics - Electricity and Magnetism Worksheet Lab 2-1 Capacitors As you work through the steps in the lab procedure, record your experimental values and the results on this worksheet. Use the exact values you record for your data to make later calculations. Procedure A: Lighting an LED How long did the LED remain lit when the capacitors were connected in series? How long did the LED remain lit when the capacitors were connected in parallel? How long did the LED remain lit when connected to the 1000 µf capacitor? Which configuration held the most energy, series or parallel? Which configuration should theoretically store more energy, and why? CHECKPOINT 1: Ask your TA to check your work before proceeding.

Labs for College Physics - Electricity and Magnetism Worksheet Lab 2-2 Procedure B: Capacitors in Parallel Complete the table below. Data Table 1 C meas (µf) C 1 C 2 C p (larger capacitance) (smaller capacitance) V meas (V) Q calc (µc) E calc (µj) Calculate the theoretical equivalent capacitance for the two capacitors in parallel. What is the percent difference between your measured equivalent capacitance and the theoretical value of the equivalent capacitance? Are the theoretical and measured values in close agreement? (Consider your percent difference

Labs for College Physics - Electricity and Magnetism Worksheet Lab 2-3 Calculate the theoretical total charge. (Use the charges you calculated above for each capacitor.) What is the percent difference between the theoretical total charge and the value calculated in the Data Table 1? Are the theoretical and calculated values in close agreement? (Consider your percent difference Do the voltages on the individual capacitors and the parallel arrangement conform to the theoretical predictions of the equation V 1 = V 2 = V? (Compare the voltage on each capacitor to the voltage on the parallel arrangement. Calculate the percent difference for V 1 and V total, and the percent difference for V 2 and V total.) CHECKPOINT 2: Ask your TA to check your table and calculations.

Labs for College Physics - Electricity and Magnetism Worksheet Lab 2-4 Procedure C: Capacitors in Series Complete the table below. Data Table 2 C meas (µf) C 1 C 2 C s (larger capacitance) (smaller capacitance) V meas (V) Q calc (µc) E calc (µj) Calculate the theoretical equivalent capacitance for the two capacitors in series. What is the percent difference between your measured equivalent capacitance and the theoretical value of the equivalent capacitance? Are the theoretical and measured values in close agreement? (Consider your percent difference

Labs for College Physics - Electricity and Magnetism Worksheet Lab 2-5 Calculate the theoretical value of total voltage. (Use the voltages you measured above for each capacitor.) What is the percent difference between the theoretical value and the calculated value from Data Table 2? Are the theoretical and calculated values in close agreement? (Consider your percent difference Do the charges on the individual capacitors and the series arrangement conform to the theoretical prediction of the equation Q total = Q 1 = Q 2? (Consider the charges on each capacitor and the total charge exactly as you have entered them in Data Table 2. Calculate the percent difference for Q 1 and Q total, and the percent difference for Q 2 and Q total.) Which circuit configuration held the most energy? CHECKPOINT 3: Ask your TA to check your table and calculations.

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback