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Verify Unit of Measure in a Multivariate Equation
Principles of Cost Analysis and Management
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Would you go into battle without reconnaissance?
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Terminal Learning Objective
Action : Verify unit of measure in a multivariate equation Condition: FM Leaders in a classroom environment working as a member of a small group, using doctrinal and administrative publications, self-study exercises, personal experiences, practical exercises, handouts, and discussion. Standard: With at least 80% accuracy (70% for international students) you must: Describe mathematical operations using units of measure Solve unit of measure equations Describe key cost equations
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Importance of Units of Measure
You can’t add apples and oranges but you can add fruit Define the Unit of Measure for a cost expression Use algebraic rules to apply mathematical operations to various Units of Measure
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Adding If two components of the cost expression have the same unit of measure, they may be added together Example: Smoky Mountain Inn Depreciation on building $60,000 per year Maintenance person’s salary $30,000 per year Cleaning person’s salary $24,000 per year Real estate taxes $10,000 per year Depreciation, maintenance, cleaning, and taxes are all stated in $ per year, so they may be added to equal $124,000 per year
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Adding (Cont.) If two components of the cost expression have the same unit of measure, they may be added together Example: Smoky Mountain Inn Laundry service $4.00 per person-night Food $6.00 per person-night Laundry and food are both stated in $ per person-night, so they may be added to equal $10 per person-night
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Subtracting If two components of the cost expression have the same unit of measure, they may be subtracted Example: Selling price is $10 per widget Unit cost is $3.75 per widget Since both Selling price and Unit cost are stated in $ per widget, they may be subtracted to yield Gross Profit of $6.25 per widget
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Dividing “Per” represents a division relationship and should be expressed as such Example: Cost per unit = Total $ Cost / # Units Total Cost = $10,000 # Units = 500 $10,000/500 units = $20/unit
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Cancelling If the same Unit of Measure appears in both the numerator and denominator of a division relationship, it will cancel Example: $25 thousand 10 thousand units = $2.50/unit
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Multiplication When multiplying different units of measure, they become a new unit of measure that is the product of the two factors Example: 10 employees * 40 hrs = 400 employee-hrs 2x * 3y = 6xy
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Cross-Cancelling When multiplying two division expressions, common Units of Measure on the diagonal will cancel Example: Variable Cost Variable cost $4/unit * 100 units = $4 * 100 units Unit = $400
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Factoring If the same unit of measure appears as a factor in all elements in a sum, it can be factored out Example: $4/hour + $6/hour = $/hr *(4 + 6)
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LSA#1 Check on Learning Q1. If two components of a cost expression have the same unit of measure, they may be either _____ or _____ A1. Q2. Which mathematical operation using two different units of measure results in a new unit of measure? Show Slide #13: LSA #1 Check on Learning Facilitator’s Note: Ask the following Questions; (Facilitate discussion on answers given) Q1. If two components of a cost expression have the same unit of measure, they may be either or . A1. Added / Subtracted Q2. Which mathematical operation using two different units of measure results in a new unit of measure? A2. Multiplication – results in a new unit of measure that is the product of the two different units of measure. A2.
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LSA #1 Summary
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Proving a Unit of Measure
What is the cost expression for a driving trip? The cost will be the sum of the following components: $ Gasoline + $ Insurance + $ Driver’s time
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Variables Affecting Cost of Trip
All of the following items will affect our trip’s cost: Distance in miles (represented by x) Gas usage in miles per gallon (represented by a) Cost per gallon of gas in dollars (represented by b) Insurance cost in dollars per mile (represented by c) Average speed in miles per hour (represented by d) Driver’s cost in dollars per hour (represented by e)
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Cost of Gasoline Cost of gasoline = # gallons * $/gallon
# gallons = x miles ÷ a miles/gallon When dividing fractions, invert the second fraction and multiply Cost of gasoline = x miles * gallon /a miles * b $/gallon
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Cost of Gasoline Example
Your car gets 20 miles/gallon, gas costs $4/gallon and you drive 100 miles: 100 miles * gallon/20 miles * $4/gallon (100 miles * gallon/20 miles) * $4/gallon (100 * gallon/20) * $4/gallon (100 5* gallon)/20 * $4/gallon (5* gallon)* $4/gallon 5 gallons * $4/gallon 5 * $4 = $20
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Total Insurance $ /year
Cost of Insurance Cost of Insurance = Insurance $/mile * miles on trip Insurance $/mile = Total Insurance $ /year Total miles /year Summary c $/mile * x miles
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Cost of Driver’s Time Cost of Driver’s Time = # hours * $/hour
# hours = x miles ÷ d miles/hour Or: x miles * hour/d miles Hours/mile * $/hour * miles on trip So: hours/d mile * e $/hour * x miles
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Cost Expression gallon/ a miles * x miles * b $/gal +
c $/mile * x miles hours/d mile * e $/hour * x miles
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Proving the Unit of Measure
Cost of Gasoline + Cost of Insurance Cost of Driver’s Time x miles * gallon a miles b $ gal c $ mile hour d miles e $
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Proving the Unit of Measure
Cost of Gasoline + Cost of Insurance Cost of Driver’s Time x miles * gallon a miles b $ gal c $ mile hour d miles e $ x miles * ( Cost of Gasoline /mile + Cost of Insurance Cost of Driver’s Time /mile ) gallon a miles b $ gal c $ mile hour d miles e $
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Proving the Unit of Measure
x miles * ( Cost of Gasoline /mile + Cost of Insurance Cost of Driver’s Time /mile ) gallon a miles b $ gal c $ mile hour d miles e $ b a $ c e d
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Proving the Unit of Measure
x miles * ( Cost of Gasoline /mile + Cost of Insurance Cost of Driver’s Time /mile ) b a $ mile c e d x miles * $ mile ( Gasoline + Insurance Driver’s Time ) b a c e d 1 x
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Plugging Values into the Equation
$ * x ( b a + c e d ) What is the cost of the trip if: The distance (x) is 300 miles The car gets 25 miles per gallon (b) The cost of a gallon of gas is $4 The insurance cost per mile (c) is $.05 The driver’s cost per hour is $20 (e) The average speed is 80 miles per hour (d)
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Plugging Values into the Equation
$ * x ( b a + c e d ) 300 4 25 .05 20 80 A/B are off from slide 26-27 What is the cost of the trip if: The distance (x) is 300 miles The car gets 25 miles per gallon (a) The cost of a gallon of gas is $4 (b) The insurance cost per mile (c) is $.05 The driver’s cost per hour is $20 (e) The average speed is 80 miles per hour (d)
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LSA# 2 Check on Learning Q1. What is the procedure when dividing by a fractional unit of measure? A1. Show Slide #28: LSA# 2 Check on Learning Facilitator’s Note: Ask the following Questions; (Facilitate discussion on answers given) Q1. What is the procedure when dividing by a fractional unit of measure? A1. Invert the second fraction and then multiply
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LSA #2 Summary
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The Value of Equations Equations represent cost relationships that are common to many organizations Examples: Revenue – Cost = Profit Total Cost = Fixed Cost + Variable Cost Beginning + Input – Output = Ending
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Input-Output Equation
Beginning + Input – Output = End If you take more water out of the bucket than you put in, what happens to the level in the bucket?
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Applications of Input-Output
Account Balances What are the inputs to the account in question? Raw materials? Work In process? Finished goods? Your checking account? What are the outputs from the account?
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Applications of Input-Output
Gas Mileage: Miles/Gallon = Miles Driven/Gallons Used Calculate Miles Driven using the odometer How do you know Gallons Used? If you always fill the tank completely, then: Beginning + Input – Output = Ending Or, chronologically: Beginning – Output + Input = Ending Full Tank – Gallons Used + Gallons Added = Full Tank Full Tank – Gallons Used + Gallons Added = Full Tank – Gallons Used + Gallons Added = 0 Gallons Used = Gallons Added
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Using the Input-Output Equation
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Using the Input-Output Equation
Set up the equation: Beginning + Inputs – Outputs = Ending Beg + Charges + Finance Charges – Payments = End $950 + $300 + Finance Charge – $325 = $940 $ Finance Charge – $325 = $940 $925 + Finance Charge = $940 Finance Charge = $940 – $925 Finance Charge = $15
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LSA #3 Check on Learning Q1. What are three useful equations that represent common cost relationships? A1. Show Slide #36: LSA #3 Check on Learning Facilitator’s Note: Ask the following Questions; (Facilitate discussion on answers given) Q1. What are three useful equations that represent common cost relationships? A Revenue – Cost = Profit Total Cost = Fixed Cost + Variable Cost Beginning + Input – Output = Ending
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LSA #3 Summary
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TLO Check on Learning
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TLO Summary Action : Verify unit of measure in a multivariate equation
Condition: FM Leaders in a classroom environment working as a member of a small group, using doctrinal and administrative publications, self-study exercises, personal experiences, practical exercises, handouts, and discussion. Standard: With at least 80% accuracy (70% for international students) you must: Describe mathematical operations using units of measure Solve unit of measure equations Describe key cost equations
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Practical Exercises
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