Instructional Materials For Engineering Economy PDF

Summary

This document is instructional material for engineering economy. It is intended for Bachelor of Science in Computer Engineering students, and covers topics in engineering economics. The material is for the first term of the 2024-2025 academic year, provided by Asst. Prof. Jennilyn S. Avancena, MIT. of the Polytechnic University of the Philippines.

Full Transcript

POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

INSTRUCTIONAL MATERIALS FOR
ENGINEERING ECONOMY

Bachelor of Science in Computer Engineering

Asst. Prof. JENNILYN S. AVANCEÑA, MIT

FIRST TERM
ACADEMIC YEAR 2024 – 2025
 POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

CHAPTER 1: INTRODUCTION TO ENGINEERING ECONOMICS

OVERVIEW

Engineering Economics is a discipline that integrates engineering principles with
economic analysis to evaluate and guide decision-making in technical projects. It involves
the systematic comparison of costs, benefits, and alternatives to optimize project
outcomes, ensuring resource-efficient solutions. By applying economic concepts such as
supply and demand, cost analysis, and investment evaluation, engineers can assess project
feasibility, manage resources, and maximize returns. Key principles include developing
alternatives, focusing on differences, using consistent viewpoints, measuring outcomes
with common units, and accounting for risks and uncertainties, all while revisiting decisions
for continuous improvement.

DESIRE LEARNING OUTCOMES
1. Apply the fundamental concepts and processes for decision-making in engineering
economics
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What is Engineering Economics?

Engineering is the profession in which the knowledge gained in physics, chemistry,
life sciences, and mathematics is applied to make products on a large scale that
increase the prosperity of man. (ABET - Accreditation for Engineering and
Technology)
Economics deals with the production, distribution, and consumption of goods and
services.
Engineering Economics is the discipline concerned with the economic aspects of
engineering. It involves the systematic evaluation of the cost and benefits of
proposed technical projects. (Eugene Grant)

Principles of Engineering Economics

Principle 1: Develop the Alternatives

The alternates can be developed using a brainstorming session.
The more creative and resourceful the team members are, the better the selection of
alternates available for a go/no-go decision would be.

Principle 2: Focus on the Difference

The future outcomes from the alternates are set as a higher priority. Based on
differences among alternates, a future course of action is selected.
Analysis, projection, and comparison are used to differentiate alternates.

Principle 3: Use a Consistent Viewpoint

The prospective outcomes of the alternatives should be consistently developed from
a defined point of view. Goal-setting mode.

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

The perspective of the decision-maker, which is often that of the owners of the form,
would be normally used.

Principle 4: Use a Common Unit of Measure

Using a common unit of measurement to enumerate as many of the prospective
outcomes as possible will make easier the analysis and comparison of alternatives.
A common unit of measure (such as pesos versus units) totals costs or total profits
that can be generated from the alternate considered.

Principle 5: Consider All Relevant Criteria

The selection of a preferred alternative requires the use of a criterion or several
criteria.
The decision process should consider the outcomes enumerated in the monetary
unit and those expressed in some other unit of measurement or made explicit in a
descriptive manner.

Principle 6: Make Uncertainty Explicit

Risk and uncertainty are inherent in projecting (or estimating) the future outcomes of
the alternatives and should be recognized with the firm’s analysis, comparison
projection, and probability.

Principle 7: Revisit Your Decisions

Learning from and adapting based on our experience are essential and are indicators
of a good organization.
The initial projected outcomes of the selected alternate should be subsequently
compared with the actual results achieved.

Economic Concepts

Studying economics gives insights into the general environment of resource
allocation decisions, opportunity costs, and project evaluation, which are crucial in many
areas.

Economics studies economic activities.
Economics does not deal with all of them, but
humans spend the maximum time on economic
activities.

Study of wants > efforts > wealth >
satisfaction: Every human being has some
wants, and these wants are unlimited. To fulfill
these wants, a person makes efforts; by doing
efforts, he gets wealth, and with this earned
wealth, he satisfies his wants.

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Study of human behavior with relation to ends and scarce means: If a person is alive, his
wants go on increasing, but the person cannot fulfill all the wants. The reason is that the
resources required to fulfill these wants are limited.

Economics studies the problem of choice: Scarcity and choice go together. If things were
available in abundance, then there would have been no problem of choice; the point is that
“problems of choice” arise because of scarcity.

Basic Economic Activities

An economic activity is a systematic endeavor to satisfy a material need. Material
needs are the needs for goods and services.

Production is a process of creation of utility or value in goods or services (or both).
“Production may be defined as the creation of utilities.” (Anatol Murad)
Factors of Production: Factors of production are essential elements that
cooperate in the process of production.
Land: It is the factor of production which is available to humankind as a
gift of nature.
Labor: It is the physical or mental effort of human beings in the process
of production. The services of a doctor, lawyer, teacher, worker in the
factory all constitute labor.
Capital: Capital is a man-made material and is a source of production.
It consists of the part of production which is used for further production.
Entrepreneurship: Entrepreneurship refers to the skills of the
entrepreneur:
(a) to organize business
(b) to undertake risks of business
Consumption has a special meaning in economics; it means the use of or utility of
goods and services for the direct satisfaction of individual and collective wants.
o Individual Consumption: It is that consumption that leads to the final
satisfaction of the wants of an individual.
o Collective consumption: It is that consumption that leads to the final
satisfaction of collective wants, for example, Uses of roads, dams, bridges, or
parks.
Investment: “Investment is that part of production during a year which is not
consumed but saved as a capital formation for further production.”
Distribution refers to the way total output, income, or wealth is distributed among
individuals or among the factors of production.
The excess of production over consumption in an accounting year is called
capital formation or investment. The circular flow of production, income, and
expenditure never stops.

Supply and Demand Concepts

What is the Theory of Demand?

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

In economics, demand is regarded as the lifeline of a business enterprise.

The demand for a particular good is the amount that will be purchased at a given time
and a given price. (Vera Anstey)
Demand refers to the quantities of a commodity that the consumers are able and
willing to buy at each possible price during a given period of time, other things being
equal. (Charles Ferguson)
Demand is the want of a person, which will become demand when he is ready to buy
the goods at a given price and at a given point in time.

What is the Law of Demand?

The law of demand states that other things being equal, the demand for a good
extends with a fall in price and contracts with a rise in price. There is an inverse relationship
with a price, and the quantity demanded.

The Law of Demand states that people will buy more at lower prices and buy less at
higher prices, ceteris paribus, or the other things remaining the same. (Paul
Samuelson)
The Law of Demand states that the amount demanded increases with a fall in price
and diminishes when price raises, other things being equal. (Alfred Marshall)

What is the Theory of Supply?

The theory of supply is as much necessary as the theory of demand for the analysis
of prices. Supply means the amount offered for sale at a given price during a certain period
of time.

The supply of goods is the quantity offered for sale in a given market at a given time at
various prices. (Thomas Robert Malthus)

What is the Law of Supply?

The law of supply expresses the relation between the price of a commodity and its
supply. In other words, the law of supply states that “other things being equal, when the
price rises, supply extends and when the price falls, supply contracts.”

The law of supply states that other things being equal, the higher the price, the
greater the quantity supplied or, the lower the price, the smaller the quantity
supplied. (Peter Dooley)

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Necessities vs. Luxuries

Necessity is a good that is vital to the function of the enterprise.
Example: Cash supply for the snack factory to pay its employees their wages.

Luxury is an item that is in surplus of need. Luxury is an item that is not needed for
the survival of the enterprise.
Example: Luxury tax. A fur coat is an example of luxury.

It has been observed that for most goods and services, there exists a relationship
between the price that must be paid and the quantity that will be demanded or
purchased.

Consumer and Producer Goods and Services

The goods and services that are produced and utilized may be categorized into two groups.

Consumer goods and services are those products or services that are directly used
by consumers to satisfy their desire.
Food, clothing, homes, air conditioners, fast-moving consumer goods,
telephones, mobile phones, and banking services are examples of consumer
goods and services.
Producer goods and services are those products or services that are used to
produce consumer goods and services or other producer goods.
Manufacturing infrastructure that includes building, machinery, instruments
and control systems, locomotives, and land transport used for the
transportation of manufactured goods are some examples.

Cost Concepts

The following are different types of cost that are involved in engineering and managerial
problems:

Fixed costs associated with a new or existing project are those costs that do not
change over a wide range of activities of the project. These are the inevitable costs
that must be paid regardless of the level of output and the resources used.
o For example, interest on borrowed capital, the rental cost of a warehouse,
administrative salaries, license fees, property insurance, and taxes are fixed
costs.
Variable costs are costs that vary to changes in the activity level of a new or existing
project.
o Examples of variable costs include raw material cost, direct labor cost, power
cost, shipping charges, utility, etc.
Incremental costs are additional costs that result from increasing the output by one
or more units.
o For example, if the cost of manufacturing 10 pieces is 2,000 and that of 11 pieces
is 2,200, then the incremental cost is 200.

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Standard costs are the planned costs per unit of output, anticipated labor hours,
materials, and overhead categories.
Direct costs can be measured and attributed to a specific activity or output.
Indirect costs cannot be attributed to a single activity.
Cash Costs are transactions that involve payment of cash.
Book Costs are a noncash cost such as depreciation on machinery, etc.
Sunk cost refers to the cost that has occurred in the past and does not have any
impact on the future course of action.
o For example, a car enthusiast had made a down payment of 5,000 to an 80,000
secondhand vehicle. If the enthusiast decided not to buy the car, it would not give
back the 5,000. The 5,000 is a sunk cost.
Opportunity cost or implicit cost refers to the value of the resources owned and
used by a firm in its own production activity.
o Example: Investing capital in the most rewarding alternative use or renting its land
and buildings to the highest bidder rather than using them itself.
Investment cost, or first cost, refers to the capital required to start a project. It may
be either a single lump sum or a series of cash inputs that must be made at the
beginning of the project.
o For example, if we want to purchase a new car, then the investment cost for
acquiring it is the sum of the down payment, taxes, and other charges involved in
obtaining the ownership of the car.
o For a capital-intensive project such as a construction project which takes several
years to complete, the investment cost is usually spread over time in the form of
progressive payments.
Operation and Maintenance costs are costs that can be incurred by hiring people,
purchasing machines, materials, information, and energy.
Working Capital are funds required for the day-to-day operation of the enterprise.
Salvage Value is the trade-in value of the equipment after its full use.

Engineering Economics Environment

The success of engineers depends upon their ability to manipulate goods and
services by acquiring and applying physical laws. However, the worth of these goods
and services lies in their utility, which is measured in economic terms.
Thus, knowledge of both physical laws and economics is required for making
appropriate decisions.

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 POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

CHAPTER 2: MONEY-TIME RELATIONSHIPS AND EQUIVALENCE

OVERVIEW

The Time Value of Money (TVM) emphasizes that money available now is worth more
than the same amount in the future due to its earning potential through interest. This
principle is fundamental in finance and economics, where capital, whether equity or debt,
can be used to generate more wealth over time. Interest, which is the cost of borrowing
money, is calculated based on the principal amount and can be either simple or compound.
Simple interest grows linearly, while compound interest accumulates on both the principal
and previously earned interest. The formulae provided help calculate interest and total
amounts owed or earned over different periods, illustrating how the value of money changes
over time.

DESIRE LEARNING OUTCOMES
1. Explain the concept of the Time Value of Money (TVM) and its importance in financial
decision-making, including the difference between simple and compound interest.
2. Calculate simple and compound interest using appropriate formulas for various time
periods, demonstrating an understanding of how money grows over time.
3. Analyze real-life scenarios involving loans and investments by applying TVM
principles to determine interest earned, total repayment amounts, and the financial
impact of different interest rates and compounding periods.
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Money is used as a means to store value. Before countries had viable currencies, the
value was stored using gold, silver, and other precious metals. Eventually, the governments
of many countries started using paper money backed by gold rather than using precious
metals as a means of exchange.

Time Value of Money

It accounts for the interest an investment earns, and it indicates that an amount of money
with a certain value now will increase in value in the future due to the interest the money
earns during the intervening time period.

Capital is wealth in the form of money or property that can be used to produce more
wealth.
o Equity Capital is owned by individuals who have invested their money or
property in a business project or venture
o Debt Capital (Borrowed Capital) is obtained from lenders for investment.
Interest
o It is defined as a commodity such as rent on money borrowed or loaned from
one individual to another, from one institution to another institution, or from
an institution to an individual.
o It is the manifestation of the time value of money.

Interest

Computationally, interest is the difference between an ending amount of money and the
beginning amount.

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

From the perspective of the borrower, Interest paid on borrowed funds (a loan) is
determined using the original amount, also called the principal.

When interest paid over a specific time unit is expressed as a percentage of the
principal, the result is called the interest rate.

FORMULA

Interest Paid = A – P Interest Rate (%) =
𝑰𝒏𝒕𝒆𝒓𝒆𝒔𝒕 𝑷𝒂𝒊𝒅
x 100%
𝑷𝒓𝒊𝒏𝒄𝒊𝒑𝒂𝒍 𝑨𝒎𝒐𝒖𝒏𝒕

Where:

A = amount owed

P = principal amount

Example 1:

An employee borrows ₱10,000 on May 1 and must repay a total of ₱10,700 exactly 1 year
later. Determine the interest amount and the interest rate paid.

Example 2:

You borrow ₱11,000 today and must repay a total of ₱11,550 exactly 1 year later. What are
the interest amount and the interest rate paid?

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Simple and Compound Interest

Simple interest is the total interest earned or charged is linearly proportional to the
initial amount of the loan (principal), the interest rate, and the number of interest periods.

Where:

I - total interest

I = Pni P - principal amount lent or borrowed

n - number of interest periods (annually, semi-
annually, monthly, weekly, daily, etc.) always
convert to yearly

i - interest rate per interest period

Where:

F - total amount to be paid

𝐅 = 𝐏(𝟏 + 𝐧𝐢) P - principal amount lent or borrowed

n - number of interest periods (annually, semi-
annually, monthly, weekly, daily, etc.) always
convert to yearly

i - interest rate per interest period

Period must be in years

Semi-annually – divided by 2

Quarterly – by 4

Bi-monthly – by 6

Months – by 12

Weekly – by 52

Daily – by 365

Example 3:

You borrow ₱1,500 from your friend for three years at a simple interest rate of 8% per year.
How much interest will you pay after three years, and what is the value of the total amount
that you will pay?

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Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Example 4:

A total of ₱1200 is invested at a simple interest rate of 6% for 4 months. How much interest
is earned on this investment and total amount need to pay.

Example 5:

Find the interest rate and final amount due investing ₱50,000 at a simple interest rate of
15.4% for 1.5years.

Compound Interest is the interest charge for any interest period, e.g., a year, based
on the remaining principal amount plus any accumulated interest charges up to the
beginning of that period.

where:

A - total amount to be paid
𝐀 = 𝐏(𝟏 + 𝐢)𝐧
P - principal amount lent or borrowed
or
n - number of interest periods (annually,
𝒊 semi-annually, monthly, weekly, daily,
𝐀 = 𝐏(𝟏 + 𝒏)𝐧t
etc.) – compounded

t – period ( in years)
𝐂𝐨𝐦𝐩𝐨𝐮𝐧𝐝 𝐈𝐧𝐭𝐞𝐫𝐞𝐬𝐭 = 𝐀 − 𝐏 i - interest rate per interest period

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Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Example 6:

The City Bank has issued a loan of ₱1,000 to a sole proprietor for a period of 5-years. The
interest rate for this loan is 5%, and the interest is compounded annually. Compute for the
compound amount and interest.

Example 7:

Your local bank branch recently announced a new savings plan with an interest rate of
0.0274% compounded daily. What is the compound payment on ₱52,000 at the end of one
year?

Example 8:

A deposit of ₱3000 earns 2% interest compounded semi-annually. How much money is in
the bank after 4 years?

Example 9:

If you deposit ₱4000 into an account paying 6% annual interest quarterly, how much money
will be in the account after 5 years?

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

CHAPTER 3: APPLICATION OF MONEY-TIME RELATIONSHIP

OVERVIEW

The application of the money-time relationship is essential for evaluating the
financial viability of projects. It helps engineers and decision-makers understand how the
value of money changes over time due to factors such as inflation, interest rates, and
investment opportunities.

DESIRE LEARNING OUTCOMES
1. Perform computation that show cash flow and the time value of money
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CASH FLOW DIAGRAMS

The cash flow diagram is a graphical representation of cash flows drawn on a time scale.

The horizontal line is a time scale, with the progression of time moving from left to
right. The period (e.g., year, quarter, and month) can be applied to intervals of time.
Cash flow diagram time t = 0 is the present, and the end of interval 1 is the end of time
period 1.

The arrows signify cash flows and are placed at the end of the period when the end-
of-period convention is used. The end-of-period convention means that all cash
flows are assumed to occur at the end of an interest period.

Downward arrows represent expenses (negative cash flows or cash outflows).
o Negative cash flows: These can be the first cost of assets, engineering design
cost, annual operating costs, periodic maintenance and rebuild costs, loan
interest and principal payments, major expected/unexpected upgrade costs,
income taxes, etc.

Upward arrows represent receipts (positive cash flows or cash inflows).
o Positive cash flows: These can be revenues, operating cost reductions, asset
salvage value, receipt of loan principal, income tax savings, receipts from
stock and bond sales, construction and facility costs savings, saving or return
of corporate capital funds, etc.

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

The cash flow diagram is dependent on the point of view.

Your point of view when you borrowed from an entity. The entity’s perspective when lending money.

Example 1:

Before evaluating the economic merits of a proposed investment, the XYZ Corporation
insists that its engineers develop a cash flow diagram of the proposal. An investment of
₱400,000 can be made that will produce uniform annual revenue of ₱210,000 for five years
and then have a market (recovery) value of ₱80,000 at the end of year five. Annual expenses
will be ₱120,000 at the end of each year for operating and maintaining the project. Draw the
cash flow diagram for the five-year life of the project. Use the corporation’s viewpoint.

Example 2:

You plan to borrow ₱15,000 to help in buying a two-wheeler. You have arranged to repay the
entire principal plus interest of 8.5% accumulated yearly after 5 years. What is the total
amount owed after 5 years. Also, draw the cash flow diagram.

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Patterns of capital investments, revenue, and expense differ from one project to
another. Because of that, there is no single method for conducting engineering economy
analyses that is ideal for all cases.

Present Worth Method

The Present Worth (PW) method is based on the concept of equivalent worth of all
cash flows relative to some base or beginning point in time called the present.
The PW of an investment alternative is a measure of how much money an individual
or a firm could afford to pay for the investment in excess of its cost.
A positive PW for an investment project is an amount of profit over the minimum
amount required by investors.

Formula

PW = PW of cash inflows – PW of cash outflows

For Annuity (series or annual payment) For Future (worth of money in the future)

Present Worth = A(P/A, i%, n) Present Worth = F(P/F, i%, n)

(1+𝑖)𝑛 −1 P/F = PW = 𝐹(1 + 𝑖)−𝑛
P/A = PW = 𝐴[ ]
𝑖(1+𝑖)𝑛
Where:
Where:
P = present value
P = present value
A = annual value or series or annual
F = future value
payment or annual cash flow
PW = present worth
PW = present worth
i = interest rate
i = interest rate
n = time period
n = time period

Example 3:

The production head proposed an acquisition of new equipment that could increase the
productivity of a certain manual welding operation. The investment cost is ₱25,000 and the
equipment will have a market value of ₱5,000 at the end of a study period of 5 years. The
increased productivity would bring in ₱8,000 per year after extra operating costs have been
subtracted from the revenue generated by the additional production. If the firm gives an
effective interest rate of 20% per year, what is the potential improvement of the project?

Solution:

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1. Given:

2. Draw the cash flow diagram

3. Formula for PW

PW = PW of cash inflows – PW of cash outflows

PW (20%) = A(P/A,20%,5) + F(P/F, 20%,5) – P

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Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Example 4:

A special purpose machine is to be acquired by paying a ₱15,000 initial cash payment plus
a debt assumption of ₱135,000. The machine will generate additional net annual cash inflow
of ₱40,000 for the firm throughout the 10 years of useful life of the asset. At the end of its life,
a salvage value of 10% of its initial cost will be realized. Assuming the effective interest rate
is 13.2% per annum, show whether the project is desirable by using the PW method.

Solution:

1. Given:

2. Draw the cash flow diagram

3. Formula for PW

PW = PW of cash inflows – PW of cash outflows

PW (13.2%) = A(P/A,13.2%,10) + F(P/F, 13.2%,10) – P

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Example 5:

A university lab is a research contractor to NASA for in-space fuel cell systems that are
hydrogen and methanol based. During lab research, three equal-service machines need to
be evaluated economically. Perform the present worth analysis with the costs show below
with effective interest rate of 10% per annum.

Electric-Powered Gas-Powered Solar-Powered

First cost ₱4,500 ₱3,500 ₱6,000

Annual operating
₱900 ₱700 ₱50
cost

Salvage value ₱200 ₱350 ₱100

Life, years 8 8 8

1. Given:

2. Draw the cash flow diagram

3. Formula for PW

PW = PW of cash inflows – PW of cash outflows

PW (10%) = A(P/A,10%,8) + F(P/F, 10%,8) – P

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Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Example 6:

Your boss wants to buy an equipment for ₱30,000. It is believed that this equipment will bring
an additional ₱8,500 income per year. The equipment’s value after 5 years will be ₱4,500.
Your boss asks you if his idea is economically viable. Perform a present worth analysis with
effective interest rate of 15% per annum.

1. Given:

2. Draw the cash flow diagram

3. Formula for PW

PW = PW of cash inflows – PW of cash outflows

PW (15%) = A(P/A,15%,5) + F(P/F, 15%,5) – P

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SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Example 7:

Product “A” has a first cost of ₱20,000, an operating cost of ₱9,000 per year, and a ₱5,000
salvage value after 5 years, while the Product “B” will cost a ₱35,000 with an operating cost
of ₱4,000 per year with a salvage value of ₱7,000 after 5 years. Perform a present worth
analysis with effective interest rate of 12% per annum. Which should be selected?

1. Given:

2. Draw the cash flow diagram

3. Formula for PW

PW = PW of cash inflows – PW of cash outflows

PW (12%) = A(P/A,12%,5) + F(P/F, 12%,5) – P

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 POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Future Worth Method

The future worth method is useful in an investment situation where we need to
compute the equivalent worth of a project at the end of its investment period rather
than at its beginning.
The Future Worth (FW) is based on the equivalent worth of all cash inflows and
outflows at the end of the study period at an interest rate. A positive FW would result
to acceptance of the problem solution.

Formula

FW = FW of cash inflows – FW of cash outflows

For Annuity (series or annual payment) For Present (worth of money in the present)

Future Worth = A(F/A, i%, n) Future Worth = A(F/P, i%, n)

(1+𝑖)𝑛 −1 F/P = FW = 𝐹(1 + 𝑖)𝑛
F/A = FW = 𝐴[ ]
𝑖
Where:
Where:
F = future value
P = present value
A = annual value or series or annual
F = future value
payment or annual cash flow
FW = future worth
FW = future worth
n = time period
i = interest rate
i = interest rate
n = time period

Example 8:

The production head proposed an acquisition of new equipment that could increase the
productivity of a certain manual welding operation. The investment cost is ₱25,000 and the
equipment will have a market value of ₱5,000 at the end of a study period of 5 years. The
increased productivity would bring in ₱8,000 per year after extra operating costs have been
subtracted from the revenue generated by the additional production. If the firm gives an
effective interest rate of 20% per year, what is the potential improvement of the project?

Solution:

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 POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

1. Given:

2. Draw the cash flow diagram

3. Formula for FW

FW = FW of cash inflows – FW of cash outflows

FW (20%) = A(F/A,20%,5)- A(F/P, 20%,5) + P

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 POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Example 9:

Product “A” has a first cost of ₱20,000, an operating cost of ₱9,000 per year, and a ₱5,000
salvage value after 5 years, while the Product “B” will cost a ₱35,000 with an operating cost
of ₱4,000 per year with a salvage value of ₱7,000 after 5 years. Perform a future worth
analysis with effective interest rate of 12% per annum. Which should be selected?

1. Given:

2. Draw the cash flow diagram

3. Formula for FW

FW = FW of cash inflows – FW of cash outflows

FW (12%) = A(F/A,12%,5) - A(F/P, 12%,5) + P

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 POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Example 10:

A ₱45,000 investment in a new conveyor system is projected to improve throughout and
increasing revenue by ₱14,000 per year for 5 years. The market value of ₱4000 at the end of
five years using future worth with 12% interest, is this good investment?

1. Given:

2. Draw the cash flow diagram

3. Formula for FW

FW = FW of cash inflows – FW of cash outflows

FW (12%) = A(F/A,12%,5) – A(F/P, 12%,5) + P

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 POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Annual Worth Method

Annual Worth (AW) is an equal annual series of amounts, for a stated study period,
that is equivalent to the cash inflows and outflows at an interest rate.
As long as the AW is greater than or equal to zero, the project is economically
attractive; otherwise, it is not. An AW of zero means that an annual return exactly
equal to the effective interest that has been earned.

Formula

AW= AW of cash inflows – AW of cash outflows

For Present (worth of money in the present) For Future (worth of money in the future)

Annual Worth = A (A/P), i%, n) Annual Worth = A(A/F, i%, n)

𝑖(1+𝑖)𝑛 𝑖
A/P = AW = 𝑃[ ] A/F = AW = 𝐹[ ]
(1+𝑖 )𝑛 −1 (1+𝑖 )𝑛 −1
Where: Where:

P = present value F = future value

AW = annual worth AW = annual worth

i = interest rate n = time period

n = time period i = interest rate

Example 11:

The production head proposed an acquisition of new equipment that could increase the
productivity of a certain manual welding operation. The investment cost is ₱25,000 and the
equipment will have a market value of ₱5,000 at the end of a study period of 5 years. The
increased productivity would bring in ₱8,000 per year after extra operating costs have been
subtracted from the revenue generated by the additional production. If the firm gives an
effective interest rate of 20% per year, what is the potential improvement of the project?

Solution:

1. Given:

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 POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

2. Draw the cash flow diagram

3. Formula for AW

AW = AW of cash inflows – AW of cash outflows

FW (20%) = -A(A/P,20%,5) +A(A/F, 20%,5) + A

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 POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Example 12:

A manufacturing process can be carried out by using a machine which can be acquired for
₱20,000. The annual receipt generated by the investment is ₱150,000 and the annual
disbursement is ₱138,000. The asset will have a life of 10 years in which it will have a salvage
value of ₱2,000 at the end of its life. Assume that i = 20%. Is the project acceptable using the
AW method?

Solution:

1. Given:

2. Draw the cash flow diagram

3. Formula for AW

AW = AW of cash inflows – AW of cash outflows

FW (20%) = -A(A/P,20%,10) +A(A/F, 20%,10) + A

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 POLYTECHNIC UNIVERSITY OF THE PHILIPPINES
SANTA MARIA, BULACAN CAMPUS
Km. 38, Sitio Gulod, Pulong Buhangin, Santa Maria, Bulacan

Example 13:

Product “A” has a first cost of ₱20,000, an operating cost of ₱9,000 per year, and a ₱5,000
salvage value after 5 years, while the Product “B” will cost a ₱35,000 with an operating cost
of ₱4,000 per year with a salvage value of ₱7,000 after 5 years. Perform a future worth
analysis with effective interest rate of 12% per annum. Which should be selected?

1. Given:

2. Draw the cash flow diagram

3. Formula for AW

AW = AW of cash inflows – AW of cash outflows

FW (12%) = -A(A/P,12%,5) +A(A/F, 12%,15) - A

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