Post on 15-Jul-2015
Introduction to Engineering Economics
Dr. Mohsin Siddique
Assistant Professor
Email: msiddique@sharjah.ac.ae
Office: 0650509431
Date: 08/09/2014
Engineering Economics
University of SharjahDept. of Civil and Env. Engg.
INTRODUCTION
� DR. MOHSIN SIDDIQUE
� Specialization:
� Coastal Engineering, Hydraulic Engineering, Sediment transport, hydrodynamics, Numerical modeling, Water resources
� Education:
� Ph.D. (2008-2011):
� The University of Tokyo
� M.Sc. (2005-2007):
� The University of Tokyo
� B.Sc. (2000-2004):
� UET Lahore
Teaching Experiences:Asst. Prof (9/2013~)Asst. Prof (8/2012~9/2013): FAST NUAsst. Prof (1/2012-8/2012): UET LahoreLecturer (12/2004~12/2011); UET Lahore
• Contact Detail:
• Email: msiddique@sharjah.ac.ae
• Phone: 06-5050943
Class Rules
� Come in time
� No disturbance during lecture
� Bring your text book, class notes, note book, pen and calculator
� DO NOT MISS YOUR QUIZ AND MID EXAM
� No cell phone calls, No SMS
� Copying of assignments is strictly prohibited
� Meet the deadlines of assignments
� Maintain your attendance
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Course name Engineering Economics- 0401301
Lecturer Dr. Mohsin Siddique
Credits 3 3-0
Pre- and co-
requisites
3rd Year Standing
� Goal: To provide engineering student with the knowledge of basic concepts of engineering economics as a decision making tool to select the suitable alternatives for engineering projects
� Instructional Objectives
� On successful completion of this course, the students should attain:
� Understand the role of engineering economic analysis as a decision-making and management/planning tool.
� Gain knowledge and understanding of theoretical concepts/principles that form the basis of engineering economics, such as time value of money, interest, and depreciation
� Identify and apply various alternative evaluation methods that are commonly used in economic decision-making processes faced by engineers.
Engineering Economics-0401301
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Detailed Topics
� The following topics will be addressed during lectures
� Introduction to Engineering Economics
� The decision making process
� Cost estimation
� Interest and Equivalence
� Different interest formulae
� Present worth analysis
� Uniform cash flow analysis
� Benefit cost analysis
� Rate of return analysis
� Depreciation
Engineering Economics-0401301
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� Components of the Assessment
� The final course mark will be made up as follows:
� Quizzes 20%
� Midterm test 20%
� Assignment/ tutorial 15%
� Final Exam 45%
� An overall mark of 60% must be obtained for the course.
� Assessment Criteria: The student must demonstrate the ability to:
� Prepare a various decision making plans on their engineering economics analysis;
� Estimate the economic aspects for the engineering projects/products;
� Calculate the interests and economic equivalences on various cash flow situations;
� Perform an economic analysis for various engineering alternatives; and
� Calculate the depreciation of engineering products and decision making based on the analysis.
Text and Reference Books
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� 2. Engineering Economy By Leland Blank & Anthony Tarquin, 7th Ed
� 1. Engineering Economic Analysis by Donald G Newman, Ted G. Eschenbach & Jerome P. Lavelle
Reference BooksAny other standard book on engineering economics &You may get help from Google search engine
Tentative Course Schedule
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Week Week StartingTopics
CommentsEngineering Economics - 0401 301 01
1 7th Sep- 11th Sep Introduction
2 14th Sep- 18th Sep Engineering Economics and Decision Making
3 21st Sep- 25th Sep Engineering Cost and Estimation / Tutorial (or) Assignment - 1
4 28th Sep -2nd Oct Interest and Equivalence/ Quiz-I
5 5th Oct- 9th Oct More Interest Formulas
1 class only
(Eid Al-Adha
Holiday)
6 12th Oct -16th Oct More Interest Formulas / Tutorial (or) Assignment - 2
7 19thOct-23rd Oct More Interest Formulas- Quiz 2
8 26th Oct -30th Oct Present Worth Analysis
9 2nd Nov- 6th Nov Present Worth Analysis
10 9th Nov- 13th Nov Mid Exam
11 16th Nov- 20th Nov Annual Cash Flow Analysis/ Tutorial (or) Assignment - 3
12 23rd Nov-27th Nov Rate of Return Analysis / Quiz-3
13 30th Nov- 4th Dec Benefit to Cost Ratio Analysis
1 class only
(National Day
Holiday)
14 7th Dec- 11th Dec Depreciation
15 14th Dec-18th Dec Revisions/ Tutorial (or) Assignment - 4/ Quiz 4
16 21st Dec-25th Dec Review
17 4th Jan- 8th JanFinal Exam
18 11th Jan- 15th Jan
Engineering Economics and Decision Making
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� Engineering economy involves formulating, estimatingand evaluating the expected outcomes of alternativesdesigned to accomplish a defined purpose.
� Mathematical techniques are used to simplify economic evaluation of alternative and these techniques are equally good for individual, business or government projects.
� Thus this course may also offer you an economic analysis toolfor making decisions such as car purchase, house purchase,and major purchase on credit card etc
Engineering Economics and Decision Making
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� Decision Making is broad topic. It’s is a major aspect of every human existence. We are surrounded by sea of problems which may be classified depending on difficulty level as given below;
� 1. Simple Problems
� 2. Intermediate Problems
� 3. Complex Problems
� The Decision Making Process
� 1. Irrational Decision making
� 2. Rational Decision making
Rational Decision making process
Engineering Costs
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� Fixed Cost: These constant or unchanging regardless of the level of output or activity.
� Variable Costs: These are not constant and depends in level of out or activity.
� Marginal Costs: It is the variable cost for one more unit.
� Average Costs: It is total cost divided by number of units
� ________________________________________________________
� Profit-loss breakeven chart
Engineering Costs
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� Sunk Cost: A sunk cost is money already spent as a result of past decision.
� Opportunity cost: An opportunity cost is associated with using a resource in one activity instead of another.
� Recurring and Nonrecurring costs
� Recurring costs refers to any expense that is know and anticipated and that occurs at regular interval.
� Nonrecurring costs are one-of-a-kind expenses that occur at irregular intervals and thus are sometimes difficult to plan for or anticipate from a budgeting perspective.
Cost Estimating
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� Types of Estimates
� 1. Rough Estimate
� 2. Semi-detailed estimate
� 3. Detailed estimate
� Estimating Models
� 1. Per unit model
� 2. Segmenting model
� 3. Cost indexes
� 4. Power-sizing model
� 5. Triangulation
� 6. Improvement and learning curve
Cash Flow Diagram (CFD)
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� Cash flow diagrams visually represent income and expenses over some time interval.
� It is graphical representation of cash flows drawn on the y-axis and a time scale along x-axis.
Cash Flow Diagram (CFD)
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� Categories of Cash Flows
� The expenses and receipts due to engineering projects usually fall into one of the following categories:
� First cost: expense to build or to buy and install
� Operations and maintenance (O&M): annual expense, such as electricity, labor, and minor repairs
� Salvage value: receipt at project termination for sale or transfer of the equipment (can be a salvage cost)
� Revenues: annual receipts due to sale of products or services
� Overhaul: major capital expenditure that occurs during the asset’s life
Revenue
Interest
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� 1. Simple interest� Simple interest is computed only on original sum (principal), not on prior
interest earned and left in the account.
� A bank account, for example, may have its simple interest every year: in this case, an account with $1000 initial principal and 20% interest per year would have a balance of $1200 at the end of the first year, $1400 at the end of the second year, and so on.
� 2. Compound Interest� Compound interest arises when interest is added to the principal of a
deposit or loan, so that, from that moment on, the interest that has been added also earns interest. This addition of interest to the principal is called compounding.
� A bank account, for example, may have its interest compounded every year: in this case, an account with $1000 initial principal and 20% interest per year would have a balance of $1200 at the end of the first year, $1440 at the end of the second year, and so on.
Uniform Series Formula
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( ) [ ]niFAFi
iF
n%,,/
11A =
−+=
0 1 2 n-1 n
AF
( )( ) ( )niPAP
i
iiP
n
n
%,,/11
1A =
−++=
0 1 2 n-1 n
A
P
Arithmetic Gradient Series
18
( ) [ ]niGFGi
iniGF
n
%,,/11
2=
−−+= ( )( ) [ ]niGPG
ii
iniGP
n
n
%,,/1
112
=
+−−+=
Analysis Techniques
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� Present Worth Analysis
� Annual Cash Flow Analysis
� Rate of Return Analysis
� Incremental Analysis
� Other Techniques:
� Future Worth Analysis
� Benefit-Cost Ratio Analysis
� Payback Period Analysis
Analysis Types
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� Comparing Alternatives using Annual Cash Flow Analysis:
� Same-Length Analysis Period
� Different-Length Analysis Periods
� Infinite-Length Analysis Period
� Other Analysis Periods
Depreciation
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� Depreciation is a decrease in value of an asset each year:
� a decrease in market value
� a decrease in the value to the owner
� Important reasons for depreciation include
� deterioration
� obsolescence
Question of the Day ?
22
� Write your impression on need of engineering economics course for your study?
� (only a few lines are enough)
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� That’s all. Have fun…however from next week we will study well
Thank you
� Questions….
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