Contemporary Engineering Economics, 4 th edition, ©2007 Interest Formulas for Single Cash Flows Lecture No.6 Chapter 3 Contemporary Engineering Economics.

Slides:



Advertisements
Similar presentations
Lecture No. 10 Chapter 4 Contemporary Engineering Economics Copyright © 2010 Contemporary Engineering Economics, 5th edition, © 2010.
Advertisements

Engineering Economics ENGR 3300
Copyright © 2007 Prentice-Hall. All rights reserved 1 The Time Value of Money: Present Value of a Bond and Effective Interest Amortization Appendix to.
Chapter 2 Applying Time Value Concepts Copyright © 2012 Pearson Canada Inc. Edited by Laura Lamb, Department of Economics, TRU 1.
Copyright © 2008 Pearson Addison-Wesley. All rights reserved. Appendix 4A The Time Value of Money.
(c) 2002 Contemporary Engineering Economics 1 Chapter 4 Time Is Money Interest: The Cost of Money Economic Equivalence Development of Interest Formulas.
Lecture No.3.  Interest: The Cost of Money  Economic Equivalence  Interest Formulas – Single Cash Flows  Equal-Payment Series  Dealing with Gradient.
State University of New York WARNING All rights reserved. No part of the course materials used in the instruction of this course may be reproduced in any.
Interest Formulas (Gradient Series)
Chapter 2 Time Value of Money, Part 1  Learning Objectives  Calculate Future Value and Compounding of Interest  Calculate Present Value  Calculate.
(c) 2002 Contemporary Engineering Economics
Contemporary Engineering Economics, 4 th edition, © 2007 Nominal and Effective Interest Rates Lecture No. 10 Chapter 4 Contemporary Engineering Economics.
Contemporry Engineering Economics, 4 th edition, © 2007 Equivalence Calculations with Continuous Payments Lecture No.12 Chapter 4 Contemporary Engineering.
Interest Formulas for Single Cash Flows
Economic Equivalence Lecture No.3 Professor C. S. Park
Contemporary Engineering Economics, 4 th edition © 2007 Economic Equivalence Lecture No.5 Chapter 3 Contemporary Engineering Economics Copyright © 2006.
Contemporary Engineering Economics, 4 th edition ©2007 Time Value of Money Lecture No.4 Chapter 3 Contemporary Engineering Economics Copyright © 2006.
(c) 2002 Contemporary Engineering Economics
Interest Formulas – Equal Payment Series
Contemporary Engineering Economics, 4 th edition, © 2007 Unconventional Equivalence Calculations Lecture No. 9 Chapter 3 Contemporary Engineering Economics.
Flash Back from before break The Five Types of Cash Flows (a) Single cash flow (b) Equal (uniform) payment series (c) Linear gradient series (d) Geometric.
Interest Formulas – Equal Payment Series
Lecture 2 Engineering Economics ENGR 3300 Department of Mechanical Engineering Inter American University of Puerto Rico Bayamon Campus Dr. Omar E. Meza.
Interest Formulas (Gradient Series) Lecture No.6 Professor C. S. Park Fundamentals of Engineering Economics Copyright © 2005.
Topic 9 Time Value of Money.
Copyright © 2011 Pearson Prentice Hall. All rights reserved. The Time Value of Money: Annuities and Other Topics Chapter 6.
TIME VALUE OF MONEY. WHY TIME VALUE A rupee today is more valuable than a rupee a year hence. Why ? Preference for current consumption over future consumption.
Contemporary Engineering Economics
Copyright © 2015, 2011, and 2007 Pearson Education, Inc. 1 Chapter 10 Compound Interest and Inflation Section 3 Present Value and Future Value.
Contemporary Engineering Economics, 4 th edition, © 2007 Equivalence Analysis using Effective Interest Rates Lecture No.11 Chapter 4 Contemporary Engineering.
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Equivalence Calculations with Effective.
L3: Economic Equivalence ECON 320 Engineering Economics Mahmut Ali GOKCE Industrial Systems Engineering Computer Sciences.
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Nominal and Effective Interest Rates.
Fundamentals of Engineering Economics, ©2008 Time Value of Money Lecture No.2 Chapter 2 Fundamentals of Engineering Economics Copyright © 2008.
Interest Formulas (Gradient Series)
Engineering Economics. Excel Financial Functions.
Lecture No.5 Chapter 3 Contemporary Engineering Economics Copyright © 2010 Contemporary Engineering Economics, 5 th edition © 2010.
1 Chapter 04 Time Value of Money 1: Analyzing Single Cash Flows McGraw-Hill/Irwin Copyright © 2012 by The McGraw-Hill Companies, Inc. All rights reserved.
1. 2 Meaning of Time value of money, Concept of Time Line, Calculating Future value, Present value, Discounting, Compounding, Different types of Interest.
Irregular Payment Series and Unconventional Equivalence Calculations
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Interest Formulas (Gradient Series)
Lecture No. 9 Chapter 3 Contemporary Engineering Economics Copyright © 2010 Contemporary Engineering Economics, 5th edition, © 2010.
Financial Mathematics 1. i = interest rate (per time period) n = # of time periods P = money at present F = money in future –After n time periods –Equivalent.
L6: Interest Formulas (Gradient Series) ECON 320 Engineering Economics Mahmut Ali GOKCE Industrial Systems Engineering Computer.
Interest Formulas for Single Cash Flows
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Interest Formulas – Equal Payment.
Introduction to Accounting I Professor Marc Smith CHAPTER 1 MODULE 1 Time Value of Money Module 3.
Contemporary Engineering Economics, 6 th edition Park Copyright © 2016 by Pearson Education, Inc. All Rights Reserved Economic Equivalence Lecture No.
1 Engineering Economics.  Money has a time value because it can earn more money over time (earning power).  Money has a time value because its purchasing.
INTRODUCTORY MATHEMATICAL ANALYSIS For Business, Economics, and the Life and Social Sciences  2011 Pearson Education, Inc. Chapter 5 Mathematics of Finance.
Economic Equivalence Lecture No.3 Chapter 2 Fundamentals of Engineering Economics Copyright © 2008.
(c) 2002 Contemporary Engineering Economics 1. Engineers must work within the realm of economics and justification of engineering projectsEngineers must.
Living with the lab Engineering Economics - Cash Flow Diagrams Cash flow diagrams provide a simple way to visualize the cash that comes “in” and the cash.
Faculty of Applied Engineering and Urban Planning Civil Engineering Department Engineering Economy Lecture 1 Week 1 2 nd Semester 20015/2016 Chapter 3.
1 Equivalence Between Two Cash Flows Step 1: Determine the base period, say, year 5. Step 2: Identify the interest rate to use. Step 3: Calculate equivalence.
Chapter 2a principles of corporate finance principles of corporate finance Lecturer Sihem Smida Sihem Smida The Time Value of Money.
Chapter 5 The Time Value of Money— The Basics. Copyright ©2014 Pearson Education, Inc. All rights reserved.5-2 Slide Contents Learning Objectives Principles.
Contemporary Engineering Economics, 4th edition ©2007
Equivalence Calculations with Continuous Payments
Equivalence Calculations with Continuous Payments
Interest Formulas – Equal Payment Series
Unconventional Equivalence Calculations
Contemporary Engineering Economics
Interest Formulas (Gradient Series)
Chapter 2 Time Value of Money
Interest Formulas for Single Cash Flows
Irregular Payment Series and Unconventional Equivalence Calculations
Economic Equivalence Lecture No.5 Chapter 3
Contemporary Engineering Economics
Contemporary Engineering Economics
Presentation transcript:

Contemporary Engineering Economics, 4 th edition, ©2007 Interest Formulas for Single Cash Flows Lecture No.6 Chapter 3 Contemporary Engineering Economics Copyright © 2006

Contemporary Engineering Economics, 4 th edition, © 2007 Types of Common Cash Flows in Engineering Economics

Contemporary Engineering Economics, 4 th edition, © 2007 Equivalence Relationship Between P and F

Contemporary Engineering Economics, 4 th edition, © 2007 Single Cash Flow Formula- Compound-Amount Factor Single payment compound amount factor (growth factor) Given: Find: F P F N 0

Contemporary Engineering Economics, 4 th edition, © 2007 Practice Problem If you had $2,000 now and invested it at 10%, how much would it be worth in 8 years? $2,000 F = ? 8 0 i = 10%

Contemporary Engineering Economics, 4 th edition, © 2007 Solution

Contemporary Engineering Economics, 4 th edition, © 2007 Single Cash Flow Formula – Present-Worth Factor Single payment present worth factor (discount factor) Given: Find: P F N 0

Contemporary Engineering Economics, 4 th edition, © 2007 Practice Problem You want to set aside a lump sum amount today in a savings account that earns 7% annual interest to meet a future expense in the amount of $10,000 to be incurred in 6 years. How much do you need to deposit today?

Contemporary Engineering Economics, 4 th edition, © 2007 Solution 0 6 $10,000 P

Contemporary Engineering Economics, 4 th edition, © 2007 Solving for i

Contemporary Engineering Economics, 4 th edition, © 2007 Solution EXCEL Solution using RATE Function =RATE(5,0,-10,20)=14.87%

Contemporary Engineering Economics, 4 th edition, © 2007 Rule of 72 – Number of Years Required to Double Your Investment

Contemporary Engineering Economics, 4 th edition, © 2007 Solution – Analytical Approach P 2P2P 0 N = ?

Contemporary Engineering Economics, 4 th edition, © 2007 Solution - Rule of 72 Approximating how long it will take for a sum of money to double

Contemporary Engineering Economics, 4 th edition, © 2007 Number of Years Required to Double an Initial Investment at Various Interest Rates

Contemporary Engineering Economics, 4 th edition, © 2007 Uneven Payment Series How much do you need to deposit today (P) to withdraw $25,000 at n =1, $3,000 at n = 2, and $5,000 at n =4, if your account earns 10% annual interest? $25,000 $3,000 $5,000 P

Contemporary Engineering Economics, 4 th edition, © $25,000 $3,000 $5,000 P $25,000 P1P $3,000 P2P $5,000 P4P4 ++ Uneven Payment Series

Contemporary Engineering Economics, 4 th edition, © 2007 Check Beginning Balance 028,6226, , , Interest Earned (10%) 02, Payment+28,622-25,000-3,0000-5,000 Ending Balance $28,6226, , , Rounding error It should be “0.”

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.