The term annual percentage rate of charge (APR),^{[1]}^{[2]} corresponding sometimes to a nominal APR and sometimes to an effective APR (EAPR),^{[3]} is the interest rate for a whole year (annualized), rather than just a monthly fee/rate, as applied on a loan, mortgage loan, credit card, etc. It is a finance charge expressed as an annual rate.^{[4]} Those terms have formal, legal definitions in some countries or legal jurisdictions, but in general:^{[3]}
 The nominal APR is the simpleinterest rate (for a year).
 The effective APR is the fee+compound interest rate (calculated across a year).^{[3]}
In some areas, the annual percentage rate (APR) is the simplified counterpart to the effective interest rate that the borrower will pay on a loan. In many countries and jurisdictions, lenders (such as banks) are required to disclose the "cost" of borrowing in some standardized way as a form of consumer protection. The (effective) APR has been intended to make it easier to compare lenders and loan options.
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Transcription
Voiceover: Easily the most quoted number people give you when they're publicizing information about their credit cards is the APR. I think you might guess or you might already know that it stands for annual percentage rate. What I want to do in this video is to understand a little bit more detail in what they actually mean by the annual percentage rate and do a little bit math to get the real or the mathematically or the effective annual percentage rate. I was actually just browsing the web and I saw some credit card that had an annual percentage rate of 22.9% annual percentage rate, but then right next to it, they say that we have 0.06274% daily periodic rate, which, to me, this right here tells me that they compound the interest on your credit card balance on a daily basis and this is the amount that they compound. Where do they get these numbers from? If you just take .06274 and multiply by 365 days in a year, you should get this 22.9. Let's see if we get that. Of course this is percentage, so this is a percentage here and this is a percent here. Let me get out my trusty calculator and see if that is what they get. If I take .06274  Remember, this is a percent, but I'll just ignore the percent sign, so as a decimal, I would actually add two more zeros here, but .06274 x 365 is equal to, right on the money, 22.9%. You say, "Hey, Sal, what's wrong with that? "They're charging me .06274% per day, "they're going to do that for 365 days a year, "so that gives me 22.9%." My reply to you is that they're compounding on a daily basis. They're compounding this number on a daily basis, so if you were to give them $100 and if you didn't have to pay some type of a minimum balance and you just let that $100 ride for a year, you wouldn't just owe them $122.9. They're compounding this much every day, so if I were to write this as a decimal ... Let me just write that as a decimal. 0.06274%. As a decimal this is the same thing as 0.0006274. These are the same thing, right? 1% is .01, so .06% is .0006 as a decimal. This is how much they're charging every day. If you watch the compounding interest video, you know that if you wanted to figure out how much total interest you would be paying over a total year, you would take this number, add it to 1, so we have 1., this thing over here, .0006274. Instead of just taking this and multiplying it by 365, you take this number and you take it to the 365th power. You multiply it by itself 365 times. That's because if I have $1 in my balance, on day 2, I'm going to have to pay this much x $1. 1.0006274 x $1. On day 2, I'm going to have to pay this much x this number again x $1. Let me write that down. On day 1, maybe I have $1 that I owe them. On day 2, it'll be $1 x this thing, 1.0006274. On day 3, I'm going to have to pay 1.00  Actually I forgot a 0. 06274 x this whole thing. On day 3, it'll be $1, which is the initial amount I borrowed, x 1.000, this number, 6274, that's just that there and then I'm going to have to pay that much interest on this whole thing again. I'm compounding 1.0006274. As you can see, we've kept the balance for two days. I'm raising this to the second power, by multiplying it by itself. I'm squaring it. If I keep that balance for 365 days, I have to raise it to the 365th power and this is counting any kind of extra penalties or fees, so let's figure out  This right here, this number, whatever it is, this is  Once I get this and I subtract 1 from it, that is the mathematically true, that is the effective annual percentage rate. Let's figure out what that is. If I take 1.0006274 and I raise it to the 365 power, I get 1.257. If I were to compound this much interest, .06% for 365 days, at the end of a year or 365 days, I would owe 1.257 x my original principle amount. This right here is equal to 1.257. I would owe 1.257 x my original principle amount, or the effective interest rate. Do it in purple. The effective APR, annual percentage rate, or the mathematically correct annual percentage rate here is 25.7%. You might say, "Hey, Sal, that's still not too far off "from the reported APR, where they just take "this number and multiply by 365, instead of taking "this number and taking it to the 365 power." You're saying, "Hey, this is roughly 23%, "this is roughly 26%, it's only a 3% difference." If you look at that compounding interest video, even the most basic one that I put out there, you'll see that every percentage point really, really, really matters, especially if you're going to carry these balances for a long period of time. Be very careful. In general, you shouldn't carry any balances on your credit cards, because these are very high interest rates and you'll end up just paying interest on purchases you made many, many years ago and you've long ago lost all of the joy of that purchase. I encourage you to not even keep balances, but if you do keep any balances, pay very close attention to this. That 22.9% APR is still probably not the full effective interest rate, which might be closer to 26% in this example. That's before they even count the penalties and the other types of fees that they might throw on top of everything.
Contents
Multiple definitions of effective APR
The nominal APR is calculated as: the rate, for a payment period, multiplied by the number of payment periods in a year.^{[3]} However, the exact legal definition of "effective APR", or EAR, can vary greatly in each jurisdiction, depending on the type of fees included, such as participation fees, loan origination fees, monthly service charges, or late fees. The effective APR has been called the "mathematicallytrue" interest rate for each year.^{[5]}^{[6]}
The computation for the effective APR, as the fee + compound interest rate, can also vary depending on whether the upfront fees, such as origination or participation fees, are added to the entire amount, or treated as a shortterm loan due in the first payment. When startup fees are paid as first payment(s), the balance due might accrue more interest, as being delayed by the extra payment period(s).^{[7]}
There are at least three ways of computing effective annual percentage rate:
 by compounding the interest rate for each year, without considering fees;
 origination fees are added to the balance due, and the total amount is treated as the basis for computing compound interest;
 the origination fees are amortized as a shortterm loan. This loan is due in the first payment(s), and the unpaid balance is amortized as a second longterm loan. The extra first payment(s) is dedicated to primarily paying origination fees and interest charges on that portion.
For example, consider a $100 loan which must be repaid after one month, plus 5%, plus a $10 fee. If the fee is not considered, this loan has an effective APR of approximately 80% (1.05^{12} = 1.7959, which is approximately an 80% increase). If the $10 fee were considered, the monthly interest increases by 10% ($10/$100), and the effective APR becomes approximately 435% (1.15^{12} = 5.3503, which equals a 435% increase). Hence there are at least two possible "effective APRs": 80% and 435%. Laws vary as to whether fees must be included in APR calculations.
United States
In the U.S., the calculation and disclosure of APR is governed by the Truth in Lending Act (which is implemented by the Consumer Financial Protection Bureau (CFPB) in Regulation Z of the Act). In general, APR in the United States is expressed as the periodic (for instance, monthly) interest rate times the number of compounding periods in a year^{[8]} (also known as the nominal interest rate); since the APR must include certain noninterest charges and fees, it requires more detailed calculation. The APR must be disclosed to the borrower within 3 days of applying for a mortgage. This information is typically mailed to the borrower and the APR is found on the truth in lending disclosure statement, which also includes an amortization schedule.
The Truth in Lending Act of 1968 (TILA) resulted in honest reporting of effective APRs for more than a decade. Then in the 1980s, auto makers (and providers of some other durable goods) began to exploit a loophole in the Act and its implementing regulations. Since the Act does not precisely define "Finance Charge" or "Total Sale Price" (terms used in the TILA disclosures), auto makers found they could reduce Finance Charges and increase car price as much as they wanted, provided Total Sale Price was not changed. APRs calculated with the reduced, or eliminated, finance charge became the "below market rate" and "Zero percent APR' loans that were commonly advertised for the next 30 years. "Zero percent APR or $1,000 rebate" is the most common form of these deceptive loans^{[according to whom?]}. The "rebate" is the hidden finance charge, reclassified to car price^{[citation needed]}. If the consumer doesn't accept the "zero percent loan," then he or she does not accrue the extra $1,000 interest on that loan, and this $1,000 is represented as a "rebate." In reality, there is no rebate and no "zero percent loan."
Auto makers have been aided in this ongoing consumer deception by the regulators who administer TILA. The current form of disclosure under TILA seems designed specifically to support the auto makers' deceptive scheme (including the classification of the "rebate" as "down payment," an oddity seemingly unrelated to the basic scheme for understating APRs)^{[citation needed]}. Administration of TILA was recently transferred to the new Consumer Finance Protection Bureau which may give cause for hope of reform in the Act and its administration that will restore the consumer protections intended when TILA was enacted.
On July 30, 2009, provisions of the Mortgage Disclosure Improvement Act of 2008 (MDIA) came into effect. A specific clause of this act refers directly to APR disclosure on mortgages. It states, if the final annual percentage rate APR is off by more than 0.125% from the initial GFE disclosure, then the lender must redisclose and wait yet another three business days before closing on the transaction.
The calculation for "closeended credit" (such as a home mortgage or auto loan) can be found here. For a fixedrate mortgage, the APR is thus equal to its internal rate of return (or yield) under an assumption of zero prepayment and zero default. For an adjustablerate mortgage the APR will also depend on the particular assumption regarding the prospective trajectory of the index rate.
The calculation for "openended credit" (such as a credit card, home equity loan or other line of credit) can be found here.
European Union
In the EU, the focus of APR standardization is heavily on transparency and consumer rights: «a comprehensible set of information to be given to consumers in good time before the contract is concluded and also as part of the credit agreement [...] every creditor has to use this form when marketing a consumer credit in any Member State» so marketing different figures is not allowed.
The EU regulations were reinforced with directives 2008/48/EC and 2011/90/EU, fully in force in all member states since 2013.^{[9]} However, in the UK the EU directive has been interpreted as the Representative APR.
A single method of calculating the APR was introduced in directive 98/7/EC and is required to be published for the major part of loans. The basic equation for calculation of APR in the EU is:
 where:
 M is the number of cash flows paid by the lender
 l is the sequence number for the cash flows paid by the lender (draw down)
 S_{l} is the cash flow (drawdown) in period l
 N is the total number of cash flows paid by the borrower
 k is the sequence number of the cash flows paid by the borrower (repayment)
 A_{k} is the cash flow (repayment) of period k, and
 t_{l} and t_{k} is the interval, expressed in years and fractions of a year between the date of the first cash flow and the date of cash flow l or k. (t_{1} = 0.)
In this equation the left side is the present value of the draw downs made by the lender and the right side is the present value of the repayments made by the borrower. In both cases the present value is defined given the APR as the interest rate. So the present value of the drawdowns is equal to the present value of the repayments, given the APR as the interest rate.
Note that neither the amounts nor the periods between transactions are necessarily equal. For the purposes of this calculation, a year is presumed to have 365 days (366 days for leap years), 52 weeks or 12 equal months. As per the standard: "An equal month is presumed to have 30.41666 days (i.e. 365/12) regardless of whether or not it is a leap year." The result is to be expressed to at least one decimal place. This algorithm for APR is required for some but not all forms of consumer debt in the EU. For example, this EU directive is limited to agreements of €50,000 and below and excludes all mortgages.^{[10]}
In the Netherlands the formula above is also used for mortgages. In many cases the mortgage is not always paid back completely at the end of period N, but for instance when the borrower sells his house or dies. In addition, there is usually only one payment of the lender to the borrower: in the beginning of the loan. In that case the formula becomes:
 where:
 S is the borrowed amount or principal amount.
 A is the prepaid onetime fee
 R the rest debt, the amount that remains as an interestonly loan after the last cash flow.
If the length of the periods are equal (monthly payments) then the summations can be simplified using the formula for a geometric series. Either way, the APR can be solved iteratively only from the formulas above, apart from trivial cases such as N=1.
Additional considerations
 Confusion is possible in that if the word "effective" is used separately as meaning "influential" or having a "longrange effect", then the term effective APR will vary, as it is not a strict legal definition in some countries. The APR is used to find compound and simple interest rates.
 APR is also an abbreviation for "Annual Principal Rate" which is sometimes used in the auto sales in some countries where the interest is calculated based on the "Original Principal" not the "Current Principal Due", so as the Current Principal Due decreases, the interest due does not.
Rate format
An effective annual interest rate of 10% can also be expressed in several ways:
 0.7974% effective monthly interest rate, because 1.007974^{12}=1.1
 9.569% annual interest rate compounded monthly, because 12×0.7974=9.569
 9.091% annual rate in advance, because (1.11)÷1.1=0.09091
These rates are all equivalent, but to a consumer who is not trained in the mathematics of finance, this can be confusing. APR helps to standardize how interest rates are compared, so that a 10% loan is not made to look cheaper by calling it a loan at "9.1% annually in advance".
The APR does not necessarily convey the total amount of interest paid over the course of a year: if one pays part of the interest prior to the end of the year, the total amount of interest paid is less.
In the case of a loan with no fees, the amortization schedule would be worked out by taking the principal left at the end of each month, multiplying by the monthly rate and then subtracting the monthly payment.
This can be expressed mathematically by
 where:
 p is the payment made each period
 P_{0} is the initial principal
 r is the percentage rate used each payment
 n is the number of payments
This also explains why a 15year mortgage and a 30year mortgage with the same APR would have different monthly payments and a different total amount of interest paid. There are many more periods over which to spread the principal, which makes the payment smaller, but there are just as many periods over which to charge interest at the same rate, which makes the total amount of interest paid much greater. For example, $100,000 mortgaged (without fees, since they add into the calculation in a different way) over 15 years costs a total of $193,429.80 (interest is 93.430% of principal), but over 30 years, costs a total of $315,925.20 (interest is 215.925% of principal).
In addition the APR takes costs into account. Suppose for instance that $100,000 is borrowed with $1000 onetime fees paid in advance. If, in the second case, equal monthly payments are made of $946.01 against 9.569% compounded monthly then it takes 240 months to pay the loan back. If the $1000 onetime fees are taken into account then the yearly interest rate paid is effectively equal to 10.31%.
The APR concept can also be applied to savings accounts: imagine a savings account with 1% costs at each withdrawal and again 9.569% interest compounded monthly. Suppose that the complete amount including the interest is withdrawn after exactly one year. Then, taking this 1% fee into account, the savings effectively earned 8.9% interest that year.
Money factor
The APR can also be represented by a money factor (also known as the lease factor, lease rate, or factor). The money factor is usually given as a decimal, for example .0030. To find the equivalent APR, the money factor is multiplied by 2400. A money factor of .0030 is equivalent to a monthly interest rate of 0.6% and an APR of 7.2%.^{[11]}
For a leasing arrangement with an initial capital cost of C, a residual value at the end of the lease of F and a monthly interest rate of r, monthly interest starts at Cr and decreases almost linearly during the term of the lease to a final value of Fr.^{[12]} The total amount of interest paid over the lease term of N months is therefore
and the average interest amount per month is
This amount is called the "monthly finance fee".^{[13]} The factor r/2 is called the "money factor"
Failings in the United States
Despite repeated attempts by regulators to establish usable and consistent standards, APR does not represent the total cost of borrowing in some jurisdictions nor does it really create a comparable standard across jurisdictions. Nevertheless, it is considered a reasonable starting point for an ad hoc comparison of lenders.
Nominal APR does not reflect the true cost
Credit card holders should be aware that most U.S. credit cards are quoted in terms of nominal APR compounded monthly, which is not the same as the effective annual rate (EAR). Despite the word "annual" in APR, it is not necessarily a direct reference for the interest rate paid on a stable balance over one year. The more direct reference for the oneyear rate of interest is EAR. The general conversion factor for APR to EAR is , where n represents the number of compounding periods of the APR per EAR period. As an example, for a common credit card quoted at 12.99% APR compounded monthly, the one year EAR is , or 13.7975%. For 12.99% APR compounded daily, the EAR paid on a stable balance over one year becomes 13.87% (see credit card interest for the .000049 addition to the 12.99% APR). Note that a high U.S. APR of 29.99% compounded monthly carries an effective annual rate of 34.48%.
While the difference between APR and EAR may seem trivial, because of the exponential nature of interest these small differences can have a large effect over the life of a loan. For example, consider a 30year loan of $200,000 with a stated APR of 10.00%, i.e., 10.0049% APR or the EAR equivalent of 10.4767%. The monthly payments, using APR, would be $1755.87. However, using an EAR of 10.00% the monthly payment would be $1691.78. The difference between the EAR and APR amounts to a difference of $64.09 per month. Over the life of a 30year loan, this amounts to $23,070.86, which is over 11% of the original loan amount.
Certain fees are not considered
Some classes of fees are deliberately not included in the calculation of APR. Because these fees are not included, some consumer advocates claim that the APR does not represent the total cost of borrowing. Excluded fees may include:
 routine onetime fees which are paid to someone other than the lender (such as a real estate attorney's fee).
 penalties such as late fees or service reinstatement fees without regard for the size of the penalty or the likelihood that it will be imposed.
Lenders argue that the real estate attorney's fee, for example, is a passthrough cost, not a cost of the lending. In effect, they are arguing that the attorney's fee is a separate transaction and not a part of the loan. Consumer advocates argue that this would be true if the customer is free to select which attorney is used. If the lender insists, however, on using a specific attorney, the cost should be looked at as a component of the total cost of doing business with that lender. This area is made more complicated by the practice of contingency fees – for example, when the lender receives money from the attorney and other agents to be the one used by the lender. Because of this, U.S. regulators require all lenders to produce an affiliated business disclosure form which shows the amounts paid between the lender and the appraisal firms, attorneys, etc.
Lenders argue that including late fees and other conditional charges would require them to make assumptions about the consumer's behavior – assumptions which would bias the resulting calculation and create more confusion than clarity.
Not a comparable standard
Even beyond the nonincluded cost components listed above, regulators have been unable to completely define which onetime fees must be included and which excluded from the calculation. This leaves the lender with some discretion to determine which fees will be included (or not) in the calculation.
Consumers can, of course, use the nominal interest rate and any costs on the loan (or savings account) and compute the APR themselves, for instance using one of the calculators on the internet.
In the example of a mortgage loan, the following kinds of fees are:
Generally included  Sometimes included  Generally not included 




The discretion that is illustrated in the "sometimes included" column even in the highly regulated U.S. home mortgage environment makes it difficult to simply compare the APRs of two lenders. Note: U.S. regulators generally require a lender to use the same assumptions and definitions in their calculation of APR for each of their products even though they cannot force consistency across lenders.
With respect to items that may be sold with vendor financing, for example, automobile leasing, the notional cost of the good may effectively be hidden and the APR subsequently rendered meaningless. An example is a case where an automobile is leased to a customer based on a "manufacturer's suggested retail price" with a low APR: the vendor may be accepting a lower lease rate as a tradeoff against a higher sale price. Had the customer selffinanced, a discounted sales price may have been accepted by the vendor; in other words, the customer has received cheap financing in exchange for paying a higher purchase price, and the quoted APR understates the true cost of the financing. In this case, the only meaningful way to establish the "true" APR would involve arranging financing through other sources, determining the lowestacceptable cash price and comparing the financing terms (which may not be feasible in all circumstances). For leases where the lessee has a purchase option at the end of the lease term, the cost of the APR is further complicated by this option. In effect, the lease includes a put option back to the manufacturer (or, alternatively, a call option for the consumer), and the value (or cost) of this option to the consumer is not transparent.
Dependence on loan period
APR is dependent on the time period for which the loan is calculated. That is, the APR for a 30year loan cannot be compared to the APR for a 20year loan. APR can be used to show the relative impact of different payment schedules (such as balloon payments or biweekly payments instead of straight monthly payments), but most standard APR calculators have difficulty with those calculations.
Furthermore, most APR calculators assume that an individual will keep a particular loan until the end of the defined repayment period, resulting in the upfront fixed closing costs being amortized over the full term of the loan. If the consumer pays the loan off early, the effective interest rate achieved will be significantly higher than the APR initially calculated. This is especially problematic for mortgage loans, where typical loan repayment periods are 15 or 30 years but where many borrowers move or refinance before the loan period runs out, which increases the borrower's effective cost for any points or other origination fees.
In theory, this factor should not affect any individual consumer's ability to compare the APR of the same product (same repayment period and origination fees) across vendors. APR may not, however, be particularly helpful when attempting to compare different products, or similar products with different terms.
Interestonly loans
Since the principal loan balance is not paid down during the interestonly term, assuming there are no set up costs, the APR will be the same as the interest rate.
Three lenders with identical information may still calculate different APRs. The calculations can be quite complex and are poorly understood even by most financial professionals. Most users depend on software packages to calculate APR and are therefore dependent on the assumptions in that particular software package. While differences between software packages will not result in large variations, there are several acceptable methods of calculating APR, each of which returns a slightly different result.
See also
References
 ^ "EURLex  51996AC1091  EN". eurlex.europa.eu.
 ^ "Justice and Consumers". European Commission  European Commission.
 ^ ^{a} ^{b} ^{c} ^{d} "Subject: Regulation AA", Alfred F."Bob" Blair, Jr., US Federal Reserve, 20080628, webpage: USFederalReserveR1314.
 ^ O'Sullivan, Arthur; Steven M. Sheffrin (2010). Economics: Principles in action. Upper Saddle River, New Jersey 07458: Pearson Prentice Hall. p. 514. ISBN 0130630853.
 ^ "The Financial Literacy Crisis", April 2008, US News and World Report, webpage: USNewsYourMoney101.
 ^ "President's Advisory Council on Financial Literacy", January 2008, Rossputin.com, webpage: RossputinFinLiteracy.
 ^ "Margill – Loans, Lines of credit, APR" (calculation types), Margill/Jurismedia inc., 2008, webpage: Margillen.
 ^ https://web.archive.org/web/20051103034219/http://www.uncdf.org/mfdl/readings/EIR_Tucker.pdf Tucker, William R. "Effective Interest Rate," Paper, Bankakademie Micro Banking Competence Center, 5–6 September 2000.
 ^ "Justice and Consumers". European Commission  European Commission.
 ^ "DIRECTIVE 2008/48/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 23 April 2008 on credit agreements for consumers and repealing Council Directive 87/102/EEC". 20080522. Retrieved 20180122.
 ^ Reed, Philip. "Leasing Glossary". Archived from the original on 17 April 2008. Retrieved 20080318.
 ^ Money Factor Definition, efunda Engineering Fundamentals
 ^ Monthly Lease Payments, leaseguide.com
External links
 Easy to use APR calculator
 FDIC Finance Charge and APR calculation rules
 http://www.investopedia.com/terms/a/apr.asp
 White Paper: More than Math, The Lost Art of Interest calculation
 Introduction to percentages and understanding APR with BBC raw money
 Mortgage Disclosure Improvement Act or MDIA
 How to Calculate Annual Percentage Rate (APR) by Self, British Lenders