Purchasing Power Parity (PPP) is a theory that allows economic variables (like GDP) from different places to be compared directly. It assumes a basket of goods at one location has the same value as a basket of those same goods at another location.[1] PPP is commonly used between countries, because their GDP is often in different currencies. While the currencies' exchange rate could be used to convert GDP, the exchange rate is only affected by the prices of traded goods and some goods, like housing, labor, and government services, are not traded. PPP factors are often presented as an exchange rate, being equal to the ratio of the price of the basket of goods in one country to the price of the basket of goods in the other country.

## Concept

The concept of purchasing power parity allows one to estimate what the exchange rate between two currencies would have to be to equate the purchasing power of the two currencies. Observed deviations of the exchange rate from purchasing power parity are measured by deviations of the real exchange rate from its PPP value.

The PPP concept is based on the law of one price, where in the absence of transaction costs and official trade barriers, identical goods will have the same price in different markets when the prices are expressed in the same currency.[2]

Another interpretation is that the difference in the rate of change in prices at home and abroad—the difference in the inflation rates—is equal to the percentage depreciation or appreciation of the exchange rate.

Deviations from parity imply differences in purchasing power of a "basket of goods" across countries, which means that for the purposes of many international comparisons, countries' GDPs or other national income statistics need to be "PPP-adjusted" and converted into common units. The best-known purchasing power adjustment is the Geary–Khamis dollar (the "international dollar"). The real exchange rate is then equal to the nominal exchange rate, adjusted for differences in price levels. If purchasing power parity held exactly, then the real exchange rate would always equal one. However, in practice the real exchange rates exhibit both short run and long run deviations from this value, for example due to reasons illuminated in the Balassa–Samuelson theorem.

There can be marked differences between purchasing power adjusted incomes and those converted via market exchange rates.[3] For example, the World Bank's World Development Indicators 2005 estimated that in 2003, one Geary-Khamis dollar was equivalent to about 1.8 Chinese yuan by purchasing power parity[4]—considerably different from the nominal exchange rate. This discrepancy has large implications; for instance, when converted via the nominal exchange rates GDP per capita in India is about US$1,965[5] while on a PPP basis it is about US$7,197.[6] At the other extreme, for instance Denmark's nominal GDP per capita is around US$53,242, but its PPP figure is US$46,602, in line with other developed nations.

### Law of one price

Although it may seem as if PPPs and the law of one price are the same, there is a difference: the law of one price applies to individual commodities whereas PPP applies to the general price level. If the law of one price is true for all commodities then PPP is also therefore true; however, when discussing the validity of PPP, some argue that the law of one price does not need to be true exactly for PPP to be valid. If the law of one price is not true for a certain commodity, the price levels will not differ enough from the level predicted by PPP.[7]

The purchasing power parity theory states that the exchange rate between one currency and another currency is in equilibrium when their domestic purchasing powers at that rate of exchange are equivalent.

## Usage

### Conversion

Purchasing power parity exchange rate is used when comparing national production and consumption and other places where the prices of non-traded goods are considered important. (Market exchange rates are used for individual goods that are traded.) PPP rates are more stable over time and can be used when that attribute is important.

PPP exchange rates help costing but exclude profits and above all do not consider the different quality of goods among countries. The same product, for instance, can have a different level of quality and even safety in different countries, and may be subject to different taxes and transport costs. Since market exchange rates fluctuate substantially, when the GDP of one country measured in its own currency is converted to the other country's currency using market exchange rates, one country might be inferred to have higher real GDP than the other country in one year but lower in the other; both of these inferences would fail to reflect the reality of their relative levels of production. But if one country's GDP is converted into the other country's currency using PPP exchange rates instead of observed market exchange rates, the false inference will not occur. Essentially GDP measured at PPP controls for the different costs of living and price levels, usually relative to the United States dollar, enabling a more accurate estimate of a nation's level of production.

The exchange rate reflects transaction values for traded goods between countries in contrast to non-traded goods, that is, goods produced for home-country use. Also, currencies are traded for purposes other than trade in goods and services, e.g., to buy capital assets whose prices vary more than those of physical goods. Also, different interest rates, speculation, hedging or interventions by central banks can influence the foreign-exchange market.

The PPP method is used as an alternative to correct for possible statistical bias. The Penn World Table is a widely cited source of PPP adjustments, and the associated Penn effect reflects such a systematic bias in using exchange rates to outputs among countries.

For example, if the value of the Mexican peso falls by half compared to the US dollar, the Mexican Gross Domestic Product measured in dollars will also halve. However, this exchange rate results from international trade and financial markets. It does not necessarily mean that Mexicans are poorer by a half; if incomes and prices measured in pesos stay the same, they will be no worse off assuming that imported goods are not essential to the quality of life of individuals. Measuring income in different countries using PPP exchange rates helps to avoid this problem.

PPP exchange rates are especially useful when official exchange rates are artificially manipulated by governments. Countries with strong government control of the economy sometimes enforce official exchange rates that make their own currency artificially strong. By contrast, the currency's black market exchange rate is artificially weak. In such cases, a PPP exchange rate is likely the most realistic basis for economic comparison. Similarly, when exchange rates deviate significantly from their long term equilibrium due to speculative attacks or carry trade, a PPP exchange rate offers a better alternative for comparison.

### Exchange Rate Prediction

PPP exchange rates are also valued because market exchange rates tend to move in their general direction, over a period of years. There is some value to knowing in which direction the exchange rate is more likely to shift over the long run.

In neoclassical economic theory, the purchasing power parity theory assumes that the exchange rate between two currencies actually observed in the foreign exchange market is the one that is used in the purchasing power parity comparisons, so that the same amount of goods could actually be purchased in either currency with the same beginning amount of funds. Depending on the particular theory, purchasing power parity is assumed to hold either in the long run or, more strongly, in the short run. Theories that invoke purchasing power parity assume that in some circumstances a fall in either currency's purchasing power (a rise in its price level) would lead to a proportional decrease in that currency's valuation on the foreign exchange market.

## Issues

The PPP exchange-rate calculation is controversial because of the difficulties of finding comparable baskets of goods to compare purchasing power across countries.[8][citation needed]

Estimation of purchasing power parity is complicated by the fact that countries do not simply differ in a uniform price level; rather, the difference in food prices may be greater than the difference in housing prices, while also less than the difference in entertainment prices. People in different countries typically consume different baskets of goods. It is necessary to compare the cost of baskets of goods and services using a price index. This is a difficult task because purchasing patterns and even the goods available to purchase differ across countries.

Thus, it is necessary to make adjustments for differences in the quality of goods and services. Furthermore, the basket of goods representative of one economy will vary from that of another: Americans eat more bread; Chinese more rice. Hence a PPP calculated using the US consumption as a base will differ from that calculated using China as a base. Additional statistical difficulties arise with multilateral comparisons when (as is usually the case) more than two countries are to be compared.

Various ways of averaging bilateral PPPs can provide a more stable multilateral comparison, but at the cost of distorting bilateral ones. These are all general issues of indexing; as with other price indices there is no way to reduce complexity to a single number that is equally satisfying for all purposes. Nevertheless, PPPs are typically robust in the face of the many problems that arise in using market exchange rates to make comparisons.

For example, in 2005 the price of a gallon of gasoline in Saudi Arabia was US$0.91, and in Norway the price was US$6.27.[9] The significant differences in price would not contribute to accuracy in a PPP analysis, despite all of the variables that contribute to the significant differences in price. More comparisons have to be made and used as variables in the overall formulation of the PPP.

When PPP comparisons are to be made over some interval of time, proper account needs to be made of inflationary effects.

In addition to methodological issues presented by the selection of a basket of goods, PPP estimates can also vary based on the statistical capacity of participating countries. The International Comparison Program, which PPP estimates are based on, require the disaggregation of national accounts into production, expenditure or (in some cases) income, and not all participating countries routinely disaggregate their data into such categories.

Some aspects of PPP comparison are theoretically impossible or unclear. For example, there is no basis for comparison between the Ethiopian laborer who lives on teff with the Thai laborer who lives on rice, because teff is not commercially available in Thailand and rice is not in Ethiopia, so the price of rice in Ethiopia or teff in Thailand cannot be determined. As a general rule, the more similar the price structure between countries, the more valid the PPP comparison.

PPP levels will also vary based on the formula used to calculate price matrices. Different possible formulas include GEKS-Fisher, Geary-Khamis, IDB, and the superlative method. Each has advantages and disadvantages.

Linking regions presents another methodological difficulty. In the 2005 ICP round, regions were compared by using a list of some 1,000 identical items for which a price could be found for 18 countries, selected so that at least two countries would be in each region. While this was superior to earlier "bridging" methods, which do not fully take into account differing quality between goods, it may serve to overstate the PPP basis of poorer countries, because the price indexing on which PPP is based will assign to poorer countries the greater weight of goods consumed in greater shares in richer countries.

There are a number of reasons that different measures do not perfectly reflect standards of living.

### Range and quality of goods

The goods that the currency has the "power" to purchase are a basket of goods of different types:

1. Local, non-tradable goods and services (like electric power) that are produced and sold domestically.
2. Tradable goods such as non-perishable commodities that can be sold on the international market (like diamonds).

The more that a product falls into category 1, the further its price will be from the currency exchange rate, moving towards the PPP exchange rate. Conversely, category 2 products tend to trade close to the currency exchange rate. (See also Penn effect).

More processed and expensive products are likely to be tradable, falling into the second category, and drifting from the PPP exchange rate to the currency exchange rate. Even if the PPP "value" of the Ethiopian currency is three times stronger than the currency exchange rate, it won't buy three times as much of internationally traded goods like steel, cars and microchips, but non-traded goods like housing, services ("haircuts"), and domestically produced crops. The relative price differential between tradables and non-tradables from high-income to low-income countries is a consequence of the Balassa–Samuelson effect and gives a big cost advantage to labour-intensive production of tradable goods in low income countries (like Ethiopia), as against high income countries (like Switzerland).

The corporate cost advantage is nothing more sophisticated than access to cheaper workers, but because the pay of those workers goes farther in low-income countries than high, the relative pay differentials (inter-country) can be sustained for longer than would be the case otherwise. (This is another way of saying that the wage rate is based on average local productivity and that this is below the per capita productivity that factories selling tradable goods to international markets can achieve.) An equivalent cost benefit comes from non-traded goods that can be sourced locally (nearer the PPP-exchange rate than the nominal exchange rate in which receipts are paid). These act as a cheaper factor of production than is available to factories in richer countries. It's difficult by the GDP PPP to consider the different quality of goods among the different countries.

The Bhagwati–Kravis–Lipsey view provides a somewhat different explanation from the Balassa–Samuelson theory. This view states that price levels for nontradables are lower in poorer countries because of differences in endowment of labor and capital, not because of lower levels of productivity. Poor countries have more labor relative to capital, so marginal productivity of labor is greater in rich countries than in poor countries. Nontradables tend to be labor-intensive; therefore, because labor is less expensive in poor countries and is used mostly for nontradables, nontradables are cheaper in poor countries. Wages are high in rich countries, so nontradables are relatively more expensive.[7]

PPP calculations tend to overemphasise the primary sectoral contribution, and underemphasise the industrial and service sectoral contributions to the economy of a nation.

The law of one price, the underlying mechanism behind PPP, is weakened by transport costs and governmental trade restrictions, which make it expensive to move goods between markets located in different countries. Transport costs sever the link between exchange rates and the prices of goods implied by the law of one price. As transport costs increase, the larger the range of exchange rate fluctuations. The same is true for official trade restrictions because the customs fees affect importers' profits in the same way as shipping fees. According to Krugman and Obstfeld, "Either type of trade impediment weakens the basis of PPP by allowing the purchasing power of a given currency to differ more widely from country to country."[7] They cite the example that a dollar in London should purchase the same goods as a dollar in Chicago, which is certainly not the case.

Nontradables are primarily services and the output of the construction industry. Nontradables also lead to deviations in PPP because the prices of nontradables are not linked internationally. The prices are determined by domestic supply and demand, and shifts in those curves lead to changes in the market basket of some goods relative to the foreign price of the same basket. If the prices of nontradables rise, the purchasing power of any given currency will fall in that country.[7]

### Departures from free competition

Linkages between national price levels are also weakened when trade barriers and imperfectly competitive market structures occur together. Pricing to market occurs when a firm sells the same product for different prices in different markets. This is a reflection of inter-country differences in conditions on both the demand side (e.g., virtually no demand for pork in Islamic states) and the supply side (e.g., whether the existing market for a prospective entrant's product features few suppliers or instead is already near-saturated). According to Krugman and Obstfeld, this occurrence of product differentiation and segmented markets results in violations of the law of one price and absolute PPP. Over time, shifts in market structure and demand will occur, which may invalidate relative PPP.[7]

### Differences in price level measurement

Measurement of price levels differ from country to country. Inflation data from different countries are based on different commodity baskets; therefore, exchange rate changes do not offset official measures of inflation differences. Because it makes predictions about price changes rather than price levels, relative PPP is still a useful concept. However, change in the relative prices of basket components can cause relative PPP to fail tests that are based on official price indexes.[7]

### Global poverty line

The global poverty line is a worldwide count of people who live below an international poverty line, referred to as the dollar-a-day line. This line represents an average of the national poverty lines of the world's poorest countries, expressed in international dollars. These national poverty lines are converted to international currency and the global line is converted back to local currency using the PPP exchange rates from the ICP. PPP exchange rates include data from the sales of high end non-poverty related items which skews the value of food items and necessary goods which is 70 percent of poor peoples' consumption.[10] Angus Deaton argues that PPP indices need to be reweighted for use in poverty measurement; they need to be redefined to reflect local poverty measures, not global measures, weighing local food items and excluding luxury items that are not prevalent or are not of equal value in all localities.[11]

## History

The idea originated with the School of Salamanca in the 16th century, and was developed in its modern form by Gustav Cassel in 1916, in The Present Situation of the Foreign Trade.[12][13] While Gustav Cassel’s use of PPP concept has been traditionally interpreted as his attempt to formulate a positive theory of exchange rate determination, the policy and theoretical context in which Cassel wrote about exchange rates suggests different interpretation.  In the years immediately preceding the end of WWI and following it economists and politicians were involved in discussions on possible ways of restoring the gold standard, which would automatically restore the system of fixed exchange rates among participating nations.  The stability of exchange rates was widely believed to be crucial for restoring the international trade and for its further stable and balanced growth.  Nobody then was mentally prepared for the idea that flexible exchange rates determined by market forces do not necessarily cause chaos and instability in the peaceful time (and that is what the abandoning of the gold standard during the war was blamed for).  Gustav Cassel was among those who supported the idea of restoring the gold standard, although with some alterations.  The question, which Gustav Cassel tried to answer in his works written during that period, was not how exchange rates are determined in the free market, but rather how to determine the appropriate level at which exchange rates were to be fixed during the restoration of the system of fixed exchange rates.  His recommendation was to fix exchange rates at the level corresponding to the PPP, as he believed that this would prevent trade imbalances between trading nations.  Thus, PPP doctrine proposed by Cassel was not really a positive theory of exchange rate determination (as Cassel was perfectly aware of numerous factors that prevent exchange rates from stabilizing at PPP level if allowed to float), but rather a normative policy advice, formulated in the context of discussions on returning to the gold standard[14].

## Examples

### Professional

#### OECD comparative price levels

Each month, the Organisation for Economic Co-operation and Development (OECD) measures the differences in price levels between its member countries by calculating the ratios of PPPs for private final consumption expenditure to exchange rates. The OECD table below indicates the number of US dollars needed in each of the countries listed to buy the same representative basket of consumer goods and services that would cost US$100 in the United States. According to the table, an American living or travelling in Switzerland on an income denominated in US dollars would find that country to be the most expensive of the group, having to spend 62% more US dollars to maintain a standard of living comparable to the US in terms of consumption. Country Price level (US = 100)[15] Australia 123 Austria 99 Belgium 101 Canada 105 Chile 67 Czech Republic 59 Denmark 128 Estonia 71 Finland 113 France 100 Germany 94 Greece 78 Hungary 52 Iceland 111 Ireland 109 Israel 109 Italy 94 Japan 96 South Korea 84 Luxembourg 112 Mexico 66 Netherlands 102 New Zealand 118 Norway 134 Poland 51 Portugal 73 Slovak Republic 63 Slovenia 75 Spain 84 Sweden 109 Switzerland 162 Turkey 61 United Kingdom 121 United States 100 #### International Comparison Program 2011: https://ec.europa.eu/eurostat/statistics-explained/index.php/Purchasing_power_parities_in_Europe_and_the_world ##### Extrapolating PPP rates Since global PPP estimates—such as those provided by the ICP— are not calculated annually, but for a single year, PPP exchange rates for years other than the benchmark year need to be extrapolated.[16] One way of doing this is by using the country's GDP deflator. To calculate a country's PPP exchange rate in Geary–Khamis dollars for a particular year, the calculation proceeds in the following manner:[17] ${\displaystyle {\textrm {PPPrate}}_{X,i}={\frac {{\textrm {PPPrate}}_{X,b}\cdot {\frac {{\textrm {GDPdef}}_{X,i}}{{\textrm {GDPdef}}_{X,b}}}}{{\textrm {PPPrate}}_{U,b}\cdot {\frac {{\textrm {GDPdef}}_{U,i}}{{\textrm {GDPdef}}_{U,b}}}}}}$ Where PPPrateX,i is the PPP exchange rate of country X for year i, PPPrateX,b is the PPP exchange rate of country X for the benchmark year, PPPrateU,b is the PPP exchange rate of the United States (US) for the benchmark year (equal to 1), GDPdefX,i is the GDP deflator of country X for year i, GDPdefX,b is the GDP deflator of country X for the benchmark year, GDPdefU,i is the GDP deflator of the US for year i, and GDPdefU,b is the GDP deflator of the US for the benchmark year. ### Educational To teach PPP, the basket of goods is often simplified to a single good. #### Big Mac Index Big Mac hamburgers, like this one from Japan, are similar worldwide. Another example of one measure of the law of one price, which underlies purchasing power parity, is the Big Mac Index, popularized by The Economist, which compares the prices of a Big Mac burger in McDonald's restaurants in different countries. The Big Mac Index is presumably useful because although it is based on a single consumer product that may not be typical, it is a relatively standardized product that includes input costs from a wide range of sectors in the local economy, such as agricultural commodities (beef, bread, lettuce, cheese), labor (blue and white collar), advertising, rent and real estate costs, transportation, etc. In theory, the law of one price would hold that if, to take an example, the Canadian dollar were to be significantly overvalued relative to the U.S. dollar according to the Big Mac Index, that gap should be unsustainable because Canadians would import their Big Macs from or travel to the U.S. to consume them, thus putting upward demand pressure on the U.S. dollar by virtue of Canadians buying the U.S. dollars needed to purchase the U.S.-made Big Macs and simultaneously placing downward supply pressure on the Canadian dollar by virtue of Canadians selling their currency in order to buy those same U.S. dollars.[18][19][citation needed] The alternative to this exchange rate adjustment would be an adjustment in prices, with Canadian McDonald's stores compelled to lower prices to remain competitive. Either way, the valuation difference should be reduced assuming perfect competition and a perfectly tradable good. In practice, of course, the Big Mac is not a perfectly tradable good and there may also be capital flows that sustain relative demand for the Canadian dollar. The difference in price may have its origins in a variety of factors besides direct input costs such as government regulations and product differentiation.[7] In some emerging economies, Western fast food represents an expensive niche product priced well above the price of traditional staples—i.e. the Big Mac is not a mainstream 'cheap' meal as it is in the West, but a luxury import. This relates back to the idea of product differentiation: the fact that few substitutes for the Big Mac are available confers market power on McDonald's. For example, in India, the costs of local fast food like vada pav are comparative to what the Big Mac signifies in the U.S.[20] Additionally, with countries such as Argentina that have abundant beef resources, consumer prices in general may not be as cheap as implied by the price of a Big Mac. The following table, based on data from The Economist's [21]January 2019 calculations, shows the under (−) and over (+) valuation of the local currency against the U.S. dollar in %, according to the Big Mac index. To take an example calculation, a Big Mac costs HK$20.00 in Hong Kong and US$5.58 in the United States. The implied exchange rate is 3.58. The difference between this and the actual exchange rate, 7.83, suggests the Hong Kong dollar is 54.2% undervalued.[21] Country or region Price level (% difference from US)[21] India -54.2 South Africa -59.9 Romania -59 Moldova -58.5 Lebanon -22.7 Azerbaijan -58.3 Oman -51.1 Jordan -50.8 Vietnam -49.8 Bahrain -43 Nicaragua -43 Hong Kong -54.2 Ukraine -65.2 Egypt -60 Russia -70.4 Taiwan -59.9 China -45.3 Malaysia -60.6 Sri Lanka -43 Indonesia -58 Mexico -54.5 Philippines -52.1 Poland -49.8 Saudi Arabia -42.7 Thailand -33.4 Pakistan -40.6 UAE -31.7 South Korea -27.9 Japan -35.5 Singapore -23.3 Czech Republic -31.7 Argentina -64.1 Hungary -45.6 Peru -43.8 Israel -17.8 Guatemala -42 Croatia -41.9 Qatar -40.9 Chile -30.3 Kuwait -37.9 Honduras -37.4 United Kingdom -27 New Zealand -24.9 United States 0 (by definition) Costa Rica -32.4 Turkey -64.2 Colombia -33.2 Australia -22 Euro area -16.8 Uruguay -22.8 Denmark -17.5 Canada -8.9 Uruguay -22.8 Brazil -18.5 Switzerland +18.7 Sweden +4.6 Norway +5 #### iPad Index Like the Big Mac Index, the iPad index (elaborated by CommSec) compares an item's price in various locations. Unlike the Big Mac, however, each iPad is produced in the same place (except for the model sold in Brazil) and all iPads (within the same model) have identical performance characteristics. Price differences are therefore a function of transportation costs, taxes, and the prices that may be realized in individual markets. An iPad will cost about twice as much in Argentina as in the United States. Country or region Price (US Dollars) [22][23][24][25] Argentina$1,094.11
Australia $506.66 Austria$674.96
Belgium $618.34 Brazil$791.40
Brunei $525.52 Canada (Montréal)$557.18
Canada (no tax) $467.36 Chile$602.13
China $602.52 Czech Republic$676.69
Denmark $725.32 Finland$695.25
France $688.49 Germany$618.34
Greece $715.54 Hong Kong$501.52
Hungary $679.64 India$512.61
Ireland $630.73 Italy$674.96
Japan $501.56 Luxembourg$641.50
Malaysia $473.77 Mexico$591.62
Netherlands $683.08 New Zealand$610.45
Norway $655.92 Philippines$556.42
Pakistan $550.00 Poland$704.51
Portugal $688.49 Russia$596.08
Singapore $525.98 Slovakia$674.96
Slovenia $674.96 South Africa$559.38
South Korea $576.20 Spain$674.96
Sweden $706.87 Switzerland$617.58
Taiwan $538.34 Thailand$530.72
Turkey $656.96 UAE$544.32
United Kingdom $638.81 US (California)$546.91
United States (no tax) $499.00 Vietnam$554.08

#### KFC Index

Similar to the Big Mac Index, the KFC Index measures PPP amongst African countries, created by Sagaci Research (a market research firm focusing solely on Africa). Instead of comparing a Big Mac, this index compares a KFC Original 12/15 pc. bucket.

For example, the average price of KFC's Original 12 pc. Bucket in the United States in January 2016 was $20.50; while in Namibia it was only$13.40 at market exchange rates. Therefore, the index states the Namibian dollar was undervalued by 33% at that time.

## References

1. ^ Pakko, Michael. "Burgernomics" (PDF). St. Louis Federal Reserve Bank. Retrieved 24 August 2019.
2. ^ Krugman and Obstfeld (2009). International Economics. Pearson Education, Inc.
3. ^ Daneshkhu, Scheherazade (18 December 2007). "China, India economies '40% smaller'". Financial Times.
4. ^ 2005 World Development Indicators: Table 5.7 | Relative prices and exchange rates Archived 2007-02-23 at the Wayback Machine
5. ^ List of countries by past and future GDP (nominal)
6. ^ List of countries by future GDP (PPP) per capita estimates
7. Krugman and Obstfeld (2009). International Economics. Pearson Education, Inc. pp. 394–395.
8. ^ Taylor and Taylor, Alan and Mark (Fall 2004). "The Purchasing Power Parity Debate" (PDF). Journal of Economic Perspectives. 18 (4): 135–158. doi:10.1257/0895330042632744.
9. ^ "Global gas prices". CNN/Money. 23 March 2005.
10. ^ Thomas Pogge on Global Poverty
11. ^ Price indexes, inequality, and the measurement of world poverty Angus Deaton, Princeton University
12. ^ Cassel, Gustav (December 1918). "Abnormal Deviations in International Exchanges". The Economic Journal. 28 (112): 413–415. doi:10.2307/2223329. JSTOR 2223329.
13. ^ Cheung, Yin-Wong (2009). "purchasing power parity". In Reinert, Kenneth A.; Rajan, Ramkishen S.; Glass, Amy Jocelyn; et al. (eds.). The Princeton Encyclopedia of the World Economy. I. Princeton: Princeton University Press. p. 942. ISBN 978-0-691-12812-2. Retrieved 2 October 2011.
14. ^ Kadochnikov, Denis (2013). "Gustav Cassel's purchasing power parity doctrine in the context of his views on international economic policy coordination". European Journal of the History of Economic Thought. 20 (6): 1101–1121. doi:10.1080/09672567.2013.824999.
15. ^ as of 14 Apr 2015 "Monthly comparative price levels". OECD. 14 April 2015.
16. ^ Paul Schreyer and Francette Koechlin (March 2002). "Purchasing power parities – measurement and uses" (PDF). Statistics Brief. OECD (3).CS1 maint: Uses authors parameter (link)
17. ^ Paul McCarthy. "Chapter 18: Extrapolating PPPs and Comparing ICP Benchmark Results" (PDF). International Comparison Program. World Bank. p. 29.
18. ^ "The Big Mac index". The Economist. Retrieved 2017-06-13.
19. ^ "The Big Mac Index". The Big Mac Index. Retrieved 2017-06-13.
20. ^ Narasimhan, Anand; Dogra, Aparna (3 September 2012). "The case study: Goli Vada Pav". Financial Times. Retrieved 30 April 2014.
21. ^ a b c "The Big Mac index". The Economist. 2019-01-10. ISSN 0013-0613. Retrieved 2019-07-02.
22. ^ Glenda Kwek. "Is the Aussie too expensive? iPad index says no". The Age.
23. ^ 23rd Sep 2013, CommSec Economic Insight: CommSec iPad Index
24. ^ [1] Commonwealth Securities 23 September 2013
25. ^ Liz Tay (September 23, 2013). "Here's How Much An iPad Costs In 46 Countries". Business Insider Australia.