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== '''[[International economics]]''' ==
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''by  [[User:Nick Gardner|Nick Gardner]] and [[User:Martin Baldwin-Edwards|Martin Baldwin-Edwards]]
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==Footnotes==
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'''International economics''' is concerned with the effects upon economic activity of international differences in productive resources and  consumer preferences and the institutions that affect them. It seeks to explain the patterns  and consequences  of transactions and interactions  between  the inhabitants of different countries, including trade, investment and migration.
 
For definitions of terms shown in italics in this article see the Related Articles subpage.
 
===International trade===
 
====Scope and methodology====
The economic theory of international trade differs from the remainder of economic theory mainly because of  the comparatively limited international  mobility of the capital and labour
<ref>[http://www.econlib.org/library/npdbooks/Viner/vnstt10.html "A note on the scope and method of the theory of international trade"    in the appendix of Jacob Viner ''Studies in the Theory of International Trade'' : Harper and Brothers  1937]</ref>.  In that respect, it would appear  to differ in degree rather than in principle from  the trade between remote regions in one country. Thus  the methodology of international trade economics differs little from that of the remainder of economics. However, the direction of academic research on the subject has been influenced by the fact that governments have often sought to impose restrictions upon international trade, and the motive for the development of trade theory  has often been a wish to determine the consequences of such restrictions.
 
The branch of trade  theory which  is conventionally categorized as "classical" consists mainly of the application of deductive logic, originating with  Ricardo’s Theory of ''Comparative Advantage''  and  developing into  a range of theorems that depend for their practical value upon the realism of their postulates. "Modern" trade theory, on the other hand, depends mainly upon ''empirical analysis''.
 
====Classical theory====
The law of ''[[comparative advantage]]'' provides a logical explanation of international trade as the rational consequence of the comparative advantages that arise from inter-regional differences -  regardless of how those differences arise.  Since its exposition by John Stuart Mill <ref>[http://www.econlib.org/Library/Ricardo/ricP2a.html#Ch.7,%20On%20Foreign%20Trade,%20comparative%20advantage  David Ricardo ''On the Principles of Political Economy and Taxation''  Chapter 7  John Murray, 1821. Third edition.(First published: 1817)]</ref> the techniques of neo-classical economics have been applied to it to model the patterns of trade that would result from various postulated sources of comparative advantage. However, extremely restrictive (and often unrealistic) assumptions have had to be adopted in order to make the problem amenable to theoretical analysis. The best-known of the resulting models, the [[Heckscher-Ohlin theorem]] (H-O)
<ref>[http://internationalecon.com/Trade/Tch60/T60-8.php The Heckscher-Ohlin Theorem]</ref> depends upon the assumptions of no international  differences of technology, productivity, or consumer preferences; no obstacles to pure competition or free trade and  no scale economies. On those assumptions, it derives a model of the trade patterns that would arise solely from  international  differences in the relative abundance of  labour and capital (referred to as factor endowments).  The resulting theorem states that, on those assumptions, a country  with a relative abundance of capital would export capital-intensive products and import labour-intensive products. The theorem proved to be of very limited predictive value, as was demonstrated by what came to be known as the "[[Leontief Paradox]]" (the discovery that, despite its capital-rich factor endowment,  America was exporting labour-intensive products and importing capital-intensive products <ref>Wassily  Leontief, ''Domestic Production and Foreign Trade: The American Capital Position Re-examined'' Proceedings of the American Philosophical Society, vol. XCVII p332 September 1953</ref>)  Nevertheless the  theoretical techniques (and many of the assumptions) used in deriving  the H-O model  were subsequently used to  derive further theorems. The [[Stolper-Samuelson theorem]] <ref>[http://www.ucd.ie/economic/staff/pneary/pdf/stolpers.pdf The Stolper-Samuelson theorem]</ref> <ref>Wolfgang Stolper and Paul Samuelson ''Protection and Real Wages''' Review of Economic Studies, 9: 58-73. 1941</ref> , which is often described as a corollary of the H-O theorem, was an early example. In its most general form it states that if the price of a good rises (falls) then the price of the factor used intensively in that industry will also rise (fall) while the price of the other factor will fall (rise). In the international trade context for which it was devised it means that trade lowers the real wage of the scarce factor of production, and protection from trade raises it.  Another corollary of the H-O theorem is Samuelson's factor price equalisation theorem <ref> Paul Samuelson: "International Trade and the Equalization of Factor Prices", '' The Economic Journal'' June 1949</ref> which states that as trade between countries tends to equalise their product prices, it tends also to equalise the prices paid to their factors of production. Those theories have sometimes been taken to mean that trade between an industrialised country and a developing country would lower the wages of the unskilled in the industrialised country. (But, as  noted below, that conclusion depends upon the unlikely  assumption that productivity is the same in the two countries). Large numbers of learned papers have been produced in attempts to elaborate on the H-O and Stolper-Samuelson theorems, and while many of them are considered to provide valuable insights, they  have seldom proved to be directly applicable to the task of explaining trade patterns.
 
''[[International economics|.... (read more)]]''
 
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Latest revision as of 09:19, 11 September 2020

After decades of failure to slow the rising global consumption of coal, oil and gas,[1] many countries have proceeded as of 2024 to reconsider nuclear power in order to lower the demand for fossil fuels.[2] Wind and solar power alone, without large-scale storage for these intermittent sources, are unlikely to meet the world's needs for reliable energy.[3][4][5] See Figures 1 and 2 on the magnitude of the world energy challenge.

Nuclear power plants that use nuclear reactors to create electricity could provide the abundant, zero-carbon, dispatchable[6] energy needed for a low-carbon future, but not by simply building more of what we already have. New innovative designs for nuclear reactors are needed to avoid the problems of the past.

(CC) Image: Geoff Russell
Fig.1 Electricity consumption may soon double, mostly from coal-fired power plants in the developing world.[7]

Issues Confronting the Nuclear Industry

New reactor designers have sought to address issues that have prevented the acceptance of nuclear power, including safety, waste management, weapons proliferation, and cost. This article will summarize the questions that have been raised and the criteria that have been established for evaluating these designs. Answers to these questions will be provided by the designers of these reactors in the articles on their designs. Further debate will be provided in the Discussion and the Debate Guide pages of those articles.

Footnotes

  1. Global Energy Growth by Our World In Data
  2. Countries, organizations, and public figures that have reconsidered their stance on nuclear power are listed on the External Links tab of this article.
  3. Pumped storage is currently the most economical way to store electricity, but it requires a large reservoir on a nearby hill or in an abandoned mine. Li-ion battery systems at $500 per KWh are not practical for utility-scale storage. See Energy Storage for a summary of other alternatives.
  4. Utilities that include wind and solar power in their grid must have non-intermittent generating capacity (typically fossil fuels) to handle maximum demand for several days. They can save on fuel, but the cost of the plant is the same with or without intermittent sources.
  5. Mark Jacobson believes that long-distance transmission lines can provide an alternative to costly storage. See the bibliography for more on this proposal and the critique by Christopher Clack.
  6. "Load following" is the term used by utilities, and is important when there is a lot of wind and solar on the grid. Some reactors are not able to do this.
  7. Fig.1.3 in Devanney "Why Nuclear Power has been a Flop"