Inflation
November 8, 2010
Inflation can be defined as the rate of decline in the purchasing power of money.
Purchasing power might be defined as:
a) kg of wheat you can get for a dollar
b) floating-point operations you can performfor a dollar
c) hours of human labour you can purchase for a dollar
Measuring Inflation
1. The Consumer Price Index
Measuring Inflation
1. The Consumer Price Index
2. The Industry Selling Price Index
Measuring Inflation
1. The Consumer Price Index
2. The Industry Selling Price Index
3. The Implicit Price Index
Hyperinflation
In some countries, the purchasing power of money has
declined rapidly and catastrophically – for example,
the Weimar Republic in the 1920’s.
Hyperinflation
…and in Yugoslavia in the 1990’s…
Hyperinflation
…and in Zimbabwe right now…
Why Does it Matter?
If there is consistent inflation at a given rate, your wages go up by the same percentage as your bills.
So there should be no net effect on the economy.
Causes of Inflation
One cause is the government printing money.
But inflation can also occur in a gold-backedcurrency – for example, when Pizarro conqueredPeru
Why is there never Deflation?
There has been…
In the US, 1873-1896 (after the Civil War), and again in the GreatDepression
In the UK, 1919 (after WWI).
In Japan, 1996--2006.
Dealing with Inflation
a) Less than 3%: ignore it
b) more than 3%: plan for it
Actual Dollars and Constant Dollars
1. Establish a reference point in time (e.g., Nov 08, 2010)
2. At the reference point, 1 constant dollar = 1 actual dollar
3. At any other time, an actual dollar is a loonie, whereas a constant dollar is that sum of money needed to buy the goods that a loonie would have bought on November 08, 2010.
Confusing Terminology
Uninflated Inflated
Real cash flowReal dollarsToday’s dollarsConstant dollarsNow dollarsConstant worth dollars
Nominal cash flowActual dollarsCurrent dollarsThen-current dollarsThen dollarsActual cash flow
Two Strategies:
1.Convert all cash flows to constant dollars(not recommended)
2. Perform calculations using actual dollars(recommended, especially for after-taxanalysis)
Example:
An asset can be purchased for $120,000. It costs $12,000/year to operate, and generates a revenue of $40,000/year (both these estimates assume no inflation). If the real MARR is 15% and the inflation rate is 8%, do a pre-tax analysis to see if itshould be purchased.
Real-dollar Analysis:
PW = -120,000 +28,000(P/A,15,6)
= -120,000 + 28,000(3.7844)
= -14,037
Analysing with Actual Dollars
To perform calculations with actual dollars, we needto adjust the MARR.
The adjusted, or inflated, or nominal MARR, MARR*,can be calculated from the real MARR via
MARR* = (1+MARR)(1+f) -1
where f is the rate of inflation.
The adjusted, or inflated, or nominal MARR
MARR* = (1+MARR)(1+f) -1
Real MARR
Which is bigger, nominal MARR or real MARR?
We will also refer to MARR* as if
Year Real cash flow
Inflation factor
Actual cash flow
(P/F,if,N) Present Worth
0 -120,000 (F/P,8%,N) -120,000 1 -120,000
1 28,000 1.08 30,340 0.8052 24,348
2 28,000 1.1664 32,659 0.6482 21,172
3 28,000 1.2597 35,272 0.5220 18,410
4 28,000 1.3604 38,091 0.4202 16,007
5 28,000 1.4693 41,141 0.3384 13,921
6 28,000 1.5868 44,430 0.2724 12,105
if = (1+i)(1+f) – 1 = (1.15)(1.08)-1 = 0.242
-14,037
This seems like a lot of extra work for nothing. But we need it if we’regoing to do after-tax analysis.
Consider the same problem, and suppose the asset is in Class 8
(declining balance depreciation at 20%) and the tax rate is 40%.
Year BTCFActual
CCA TaxedIncm.
Taxes(40%)
ATCFActual
Infl.Factr
ATCFReal
P/F,15,N PW
0 -120,000 -120,000 -120,000 -120,000
1 30,240 12,000 18,240 7,296 22,944 0.926 21,245 0.869 18,474
2 32,240 21,600 10,640 4,256 27,984 0.857 23,992 0.756 18,141
3 35,272 17,280 17,992 7,197 28,075 0.794 22,287 0.657 14,654
4 38,091 13,824 24,267 9,707 28,384 0.735 20,863 0.572 11,928
5 41,141 11,059 30,082 12,033 29,108 0.680 19,811 0.497 9,849
6 44,430 8,847 35,583 14,233 30,197 0.630 19,029 0.432 8,227
CCA Adjustment 1,068
-37,658So present worth, after tax, is
Based on the cost of capital, your company’s MARR is 10%
You expect 5% inflation in the future.
You calculate the IRR of a proposed project, based on actualcash flows. What is the minimum value of IRR needed foryou to accept the project?
Buying Versus Leasing
A piece of heavy equipment can be bought for $100,000It will last for 10 years, and falls into Class 8 (d=0.2).
Alternatively, the equipment can be leased for $20,000 ayear, with an option to buy for $5,000 at the end of theeighth year.
Assuming we would buy it at the end of the eighth year, and that we can deduct the lease cost from pre-tax income,should we lease or buy?
(The tax rate is 40% and the after-tax cost of capital is 10%.)
Buy Now
Year UCC CCA taxes saved P/F,0.1,N PW
0.00 0.00 0.00 1.00 -100000.00
1.00 50000.00 10000.00 4000.00 0.91 3636.36
2.00 90000.00 18000.00 7200.00 0.83 5950.41
3.00 72000.00 14400.00 5760.00 0.75 4327.57
4.00 57600.00 11520.00 4608.00 0.68 3147.33
5.00 46080.00 9216.00 3686.40 0.62 2288.96
6.00 36864.00 7372.80 2949.12 0.56 1664.70
7.00 29491.20 5898.24 2359.30 0.51 1210.69
8.00 23592.96 4718.59 1887.44 0.47 880.50
9.00 18874.37 3774.87 1509.95 0.42 640.37
10.00 15099.49 3019.90 1207.96 0.39 465.72
total -75787.38
Lease
Year Lease CostAfter-Tax Lease
Cost taxes saved P/F,0.1,N pw
0.00 0.00 0.00 1.00 0.00
1.00 20000.00 12000.00 0.00 0.91 -10909.09
2.00 20000.00 12000.00 0.00 0.83 -9917.36
3.00 20000.00 12000.00 0.00 0.75 -9015.78
4.00 20000.00 12000.00 0.00 0.68 -8196.16
5.00 20000.00 12000.00 0.00 0.62 -7451.06
6.00 20000.00 12000.00 0.00 0.56 -6773.69
7.00 20000.00 12000.00 0.00 0.51 -6157.90
8.00 20000.00 12000.00 0.00 0.47 -5598.09
9.00 5000.00 0.00 -200.00 0.42 -2015.82
10.00 0.00 0.00 -360.00 0.39 138.80
total -65,895.50
Now suppose we expect 10% inflation over the next ten years.
Case 1: The lease costs are fixed by contract; do we buy or lease?
Case 2: The lease costs rise at the same rate as inflation; do we buy or lease?
if = (1+i)(1+f) – 1 = (1.10)(1.10)-1 = 0.21
In either case the inflated MARR is:
Buying: Both cases
Year UCC CCA taxes saved P/F,0.21,N pw
0.00 0.00 0.00 1.00 -100000.00
1.00 50000.00 10000.00 4000.00 0.83 3305.79
2.00 90000.00 18000.00 7200.00 0.68 4917.70
3.00 72000.00 14400.00 5760.00 0.56 3251.37
4.00 57600.00 11520.00 4608.00 0.47 2149.67
5.00 46080.00 9216.00 3686.40 0.39 1421.27
6.00 36864.00 7372.80 2949.12 0.32 939.68
7.00 29491.20 5898.24 2359.30 0.26 621.28
8.00 23592.96 4718.59 1887.44 0.22 410.76
9.00 18874.37 3774.87 1509.95 0.18 271.58
10.00 15099.49 3019.90 1207.96 0.15 179.56
total -82,531.36
Case 1: The lease costs are fixed by contract
Year Lease CostAfter-Tax
Lease Cost taxes saved P/F,0.21,N pw
0.00 0.00 0.00 1.00 0.00
1.00 20000.00 12000.00 0.00 0.83 -9917.36
2.00 20000.00 12000.00 0.00 0.68 -8196.16
3.00 20000.00 12000.00 0.00 0.56 -6773.69
4.00 20000.00 12000.00 0.00 0.47 -5598.09
5.00 20000.00 12000.00 0.00 0.39 -4626.52
6.00 20000.00 12000.00 0.00 0.32 -3823.57
7.00 20000.00 12000.00 0.00 0.26 -3159.98
8.00 20000.00 12000.00 0.00 0.22 -2611.55
9.00 5000.00 0.00 -200.00 0.18 -864.03
10.00 0.00 0.00 -360.00 0.15 53.51
total -45,517.42
Case 2: The lease costs rise with inflation
Year Lease CostAfter-Tax
Lease Cost taxes saved P/F,0.21,N pw
0.00 0.00 0.00 1.00 0.00
1.00 22000.00 13200.00 0.00 0.83 10909.09
2.00 24200.00 14520.00 0.00 0.68 9917.36
3.00 26620.00 15972.00 0.00 0.56 9015.78
4.00 29282.00 17569.20 0.00 0.47 8196.16
5.00 32210.20 19326.12 0.00 0.39 7451.06
6.00 35431.22 21258.73 0.00 0.32 6773.69
7.00 38974.34 23384.61 0.00 0.26 6157.90
8.00 42871.78 25723.07 0.00 0.22 5598.09
9.00 11789.74 0.00 -471.59 0.18 2035.67
10.00 0.00 0.00 -933.75 0.15 -138.80
total 65,915.99
Leasing Versus Buying.
A company is considering whether to rent or to buy a Plebney machine.It costs $100,000 to buy, and $40,000/year to rent. The company will need the machine for another three years, after which it will have a salvage value of $20,000.
The machine depreciates at 30% per year.
The company’s pre-tax MARR is 10%; lease charges are paid on Dec 31.
Case 1: No Tax, No Inflation
Buy: PW = -100,000 + 20,000(P/F,0.1,3)
= -100,000 + 20,000(0.7513)
= -84,974
Lease: PW = -40,000(P/A,0.1,3)
= -40,000(2.487)
= -99,480
Case 2: 50% Tax, No Inflation
After tax MARR = 0.1 × 0.5 = 0.05
Buy: PW = -100,000×CCTF* + 20,000(P/F,0.05,3)×CCTF
CCTF = 1 – td/(i+d) = 1 – 0.5×0.3/0.35 = 0.57
CCTF* = 0.58
So PW = -58,000 + 11,300(0.86) = -$48,282
Lease: PW = -40,000(P/A,0.05,3)(1-0.5)
= -40,000(2.72)(0.5)
= --$54,400
Case 3: 50% Tax, 15% Inflation
After tax MARR = 0.1 × 0.5 = 0.05
Inflated after-tax MARR* = (1+MARR)(1+f) -1 = 1.05×1.15-1 = 0.21
Assume salvage price does not inflate
Buy: PW = -100,000×CCTF* + 20,000(P/F,0.21,3)×CCTF
CCTF = 1 – td/(i+d) = 1 – 0.5×0.3/0.51 = 0.706
CCTF* = 0.73
So PW = -73,000 + 14,012(0.56) = -$65,153
If salvage price rises with inflation, then
PW = -100,000×CCTF* + 20,000(P/F,0.05,3)×CCTF = -$60,857
Case 3: 50% Tax, 15% Inflation
Lease Costs fixed by Contract (actual dollar costs constant):
PW = -40,000(P/A,0.21,3)(1-0.5)
= -40,000(2.07)(0.5)
= -$41,400
Lease Costs rise with inflation (actual dollar cost increases, real dollar cost constant):
PW = -40,000(P/A,0.05,3)(1-0.5)
= -40,000(2.72)(0.5)
= -$54,400