# Fundamental theorems of welfare economics

Fundamental theorems of welfare economics There are two fundamental theorems of welfare economics. The first states that in economic equilibrium, a set of complete markets, with complete information, and in perfect competition, will be Pareto optimal (in the sense that no further exchange would make one person better off without making another worse off). The requirements for perfect competition are these:[1] There are no externalities and each actor has perfect information. Firms and consumers take prices as given (no economic actor or group of actors has market power).

The theorem is sometimes seen as an analytical confirmation of Adam Smith's "invisible hand" principle, namely that competitive markets ensure an efficient allocation of resources. No entanto, there is no guarantee that the Pareto optimal market outcome is socially desirable, as there are many possible Pareto efficient allocations of resources differing in their desirability (por exemplo. one person may own everything and everyone else nothing).[2] The second theorem states that any Pareto optimum can be supported as a competitive equilibrium for some initial set of endowments. The implication is that any desired Pareto optimal outcome can be supported; Pareto efficiency can be achieved with any redistribution of initial wealth. No entanto, attempts to correct the distribution may introduce distortions, and so full optimality may not be attainable with redistribution.[3] The theorems can be visualized graphically for a simple pure exchange economy by means of the Edgeworth box diagram.

Conteúdo 1 History of the fundamental theorems 1.1 Adam Smith (1776) 1.2 Léon Walras (1870) 1.3 F. S. Edgeworth (1881) 1.4 Vilfredo Pareto (1906/9) 1.5 Enrico Barone (1908) 1.6 Abba Lerner (1934) 1.7 Harold Hotelling (1938) 1.8 Oscar Lange (1942) 1.9 Abram Bergson and Paul Samuelson (1947) 1.10 Kenneth Arrow and Gérard Debreu (separately, 1951) 1.11 Greenwald-Stiglitz theorem 2 Proof of the first fundamental theorem 3 Proof of the second fundamental theorem 4 Veja também 5 References History of the fundamental theorems Adam Smith (1776) In a discussion of import tariffs Adam Smith wrote that: Every individual necessarily labours to render the annual revenue of the society as great as he can... He is in this, as in many other ways, led by an invisible hand to promote an end which was no part of his intention... By pursuing his own interest he frequently promotes that of the society more effectually than when he really intends to promote it.[4] Note that Smith's ideas were not directed towards welfare economics specifically, as this field of economics had not been created at the time. No entanto, his arguments have been credited towards the creation of the branch as well as the fundamental theories of welfare economics.[5] Léon Walras (1870) Walras wrote that 'exchange under free competition is an operation by which all parties obtain the maximum satisfaction subject to buying and selling at a uniform price'.[6] F. S. Edgeworth (1881) Edgeworth took a step towards the first fundamental theorem in his 'Mathematical Psychics', looking at a pure exchange economy with no production. He included imperfect competition in his analysis.[7] His definition of equilibrium is almost the same as Pareto's later definition of optimality: it is a point such that...

in whatever direction we take an infinitely small step, P and Π [the utilities of buyer and seller] do not increase together, but that, while one increases, the other decreases.[8] Instead of concluding that equilibrium was Pareto optimal, Edgeworth concluded that the equilibrium maximizes the sum of utilities of the parties, which is a special case of Pareto efficiency: It seems to follow on general dynamical principles applied to this special case that equilibrium is attained when the total pleasure-energy of the contractors is a maximum relative, or subject, to conditions...[9] Vilfredo Pareto (1906/9) Pareto stated the first fundamental theorem in his Manuale (1906) and with more rigour in its French revision (Manoel, 1909).[10] He was the first to claim optimality under his own criterion or to support the claim by convincing arguments.[citação necessária] He defines equilibrium more abstractly than Edgeworth as a state which would maintain itself indefinitely in the absence of external pressures[11] and shows that in an exchange economy it is the point at which a common tangent to the parties' indifference curves passes through the endowment.[12] His definition of optimality is given in Chap. VI: We will say that the members of a collectivity enjoy a maximum of ophelimity [ou seja. of utility] at a certain position when it is impossible to move a small step away such that the ophelimity enjoyed by each individual in the collectivity increases, or such that it diminishes. [He has previously defined an increase in individual ophelimity as a move onto a higher indifference curve.] That is to say that any small step is bound to increase the ophelimity of some individuals while diminishing that of others.[13] The following paragraph gives us a theorem: For phenomena of type I [ou seja. competição perfeita], when equilibrium takes place at a point of tangency of indifference curves, the members of the collectivity enjoy a maximum of ophelimity.

He adds that 'a rigorous proof cannot be given without the help of mathematics' and refers to his Appendix.[14] Wicksell, referring to his definition of optimality, commented: With such a definition it is almost self-evident that this so-called maximum obtains under free competition, because if, after an exchange is effected, it were possible by means of a further series of direct or indirect exchanges to produce an additional satisfaction of needs for the participators, then to that extent such a continued exchange would doubtless have taken place, and the original position could not be one of final equilibrium.[15] Pareto didn't find it so straightforward. He gives a diagrammatic argument in his text, applying solely to exchange,[16] and a 32-page mathematical argument in the Appendix[17] which Samuelson found 'not easy to follow'.[18] Pareto was hampered by not having a concept of the production–possibility frontier, whose development was due partly to his collaborator Enrico Barone.[19] His own 'indifference curves for obstacles' seem to have been a false path.

Shortly after stating the first fundamental theorem, Pareto asks a question about distribution: Consider a collectivist society which seeks to maximise the ophelimity of its members. The problem divides into two parts. Firstly we have a problem of distribution: how should the goods within a society be shared between its members? And secondly, how should production be organised so that, when goods are so distributed, the members of society obtain the maximum ophelimity?

His answer is an informal precursor of the second theorem: Having distributed goods according to the answer to the first problem, the state should allow the members of the collectivity to operate a second distribution, or operate it itself, in either case making sure that it is performed in conformity with the workings of free competition.[20] Enrico Barone (1908) Barone, an associate of Pareto, proved an optimality property of perfect competition,[21] namely that – assuming exogenous prices – it maximises the monetary value of the return from productive activity, this being the sum of the values of leisure, savings, and goods for consumption, all taken in the desired proportions.[22] He makes no argument that the prices chosen by the market are themselves optimal.

His paper wasn't translated into English until 1935. It received an approving summary from Samuelson[23] but seems not to have influenced the development of the welfare theorems as they now stand.

Abba Lerner (1934) Dentro 1934 Lerner restated Edgeworth's condition for exchange that indifference curves should meet as tangents, presenting it as an optimality property. He stated a similar condition for production, namely that the production–possibility frontier (PPF, to which he gave the alternative name of 'productive indifference curve') should be tangential with an indifference curve for the community. He was one of the originators of the PPF, having used it in a paper on international trade in 1932.[24] He shows that the two arguments can be presented in the same terms, since the PPF plays the same role as the mirror-image indifference curve in an Edgeworth box. He also mentions that there's no need for the curves to be differentiable, since the same result obtains if they touch at pointed corners.

His definition of optimality was equivalent to Pareto's: If... it is possible to move one individual into a preferred position without moving another individual into a worse position... we may say that the relative optimum is not reached...

The optimality condition for production is equivalent to the pair of requirements that (eu) price should equal marginal cost and (ii) output should be maximised subject to (eu). Lerner thus reduces optimality to tangency for both production and exchange, but does not say why the implied point on the PPF should be the equilibrium condition for a free market. Perhaps he considered it already sufficiently well established.[25] Lerner ascribes to his LSE colleague Victor Edelberg the credit for suggesting the use of indifference curves. Samuelson surmised that Lerner obtained his results independently of Pareto's work.[26] Harold Hotelling (1938) Hotelling put forward a new argument to show that 'sales at marginal costs are a condition of maximum general welfare' (under Pareto's definition). He accepted that this condition was satisfied by perfect competition, but argued in consequence that perfect competition could not be optimal since some beneficial projects would be unable to recoup their fixed costs by charging at this rate (por exemplo, in a natural monopoly).[27] Oscar Lange (1942) Lange's paper 'The Foundations of Welfare Economics' is the source of the now-traditional pairing of two theorems, one governing markets, the other distribution. He justified the Pareto definition of optimality for the first theorem by reference to Lionel Robbins's rejection of interpersonal utility comparisons,[28] and suggested various ways to reintroduce interpersonal comparisons for the second theorem such as the adjudications of a democratically elected Congress. Lange believed that such a congress could act in a similar way to a capitalist: through setting price vectors, it could achieve any optimal production plan to have achieve efficiency and social equality.[29] His reasoning is a mathematical translation (into Lagrange multipliers) of Lerner's graphical argument. The second theorem does not take its familiar form in his hands; rather he simply shows that the optimisation conditions for a genuine social utility function are similar to those for Pareto optimality.

Abram Bergson and Paul Samuelson (1947) Samuelson (crediting Abram Bergson for the substance of his ideas) brought Lange's second welfare theorem to approximately its modern form.[30] He follows Lange in deriving a set of equations which are necessary for Pareto optimality, and then considers what additional constraints arise if the economy is required to satisfy a genuine social welfare function, finding a further set of equations from which it follows 'that all of the action necessary to achieve a given ethical desideratum may take the form of lump sum taxes or bounties'.[31] Kenneth Arrow and Gérard Debreu (separately, 1951) Arrow's and Debreu's two papers[32] (written independently and published almost simultaneously) sought to improve on the rigour of Lange's first theorem. Their accounts refer to (short-run) production as well as exchange, expressing the conditions for both through linear functions.

Equilibrium for production is expressed by the constraint that the value of a manufacturer's net output, ou seja. the dot product of the production vector with the price vector, should be maximised over the manufacturer's production set. This is interpreted as profit maximisation. A firm's maximum output, like that of an economy as a whole, will be attained only if an invisible hand leads employees, each seeking his or her own satisfaction, to promote an end which is no part of their intention; so like Lerner, Arrow and Debreu relied on a powerful premise (in their case embodied in definitions) to do much of the work.

Equilibrium for exchange is interpreted as meaning that the individual's utility should be maximised over the positions obtainable from the endowment through exchange, these being the positions whose value is no greater than the value of his or her endowment, where the value of an allocation is its dot product with the price vector.

The concept of equilibrium is thus recast as meaning optimality along a straight price line. This new meaning is given the special name of 'Walrasian' or 'competitive equilibrium', and is not a true equilibrium condition in the sense of being a balance of forces.

Arrow's and Debreu's proofs required a change of mathematical style from the calculus to convex set theory. Arrow motivated his paper by reference to the need to extend proofs to cover equilibria at the edge of the space, and Debreu by the possibility of indifference curves being non-differentiable. Modern texts follow their style of proof.

Greenwald-Stiglitz theorem In their 1986 papel, "Externalities in Economies with Imperfect Information and Incomplete Markets", Bruce Greenwald and Joseph Stiglitz showed that the fundamental welfare theorems do not hold if there are incomplete markets or imperfect information.[33] The paper establishes that a competitive equilibrium of an economy with asymmetric information is generically not even constrained Pareto efficient. A government facing the same information constraints as the private individuals in the economy can nevertheless find Pareto-improving policy interventions.[34] Greenwald and Stiglitz noted several relevant situations, including how moral hazard may render a situation inefficient (por exemplo. an alcohol tax may be pareto improving as it reduces automobile accidents).[35] Proof of the first fundamental theorem The first fundamental theorem holds under general conditions.[36] A formal statement is as follows: If preferences are locally nonsatiated, e se {estilo de exibição (mathbf {X^{*}} ,mathbf {S^{*}} ,mathbf {p} )} is a price equilibrium with transfers, then the allocation {estilo de exibição (mathbf {X^{*}} ,mathbf {S^{*}} )} is Pareto optimal. An equilibrium in this sense either relates to an exchange economy only or presupposes that firms are allocatively and productively efficient, which can be shown to follow from perfectly competitive factor and production markets.[36] Given a set {estilo de exibição G} of types of goods we work in the real vector space over {estilo de exibição G} , {estilo de exibição mathbb {R} ^{G}} and use boldface for vector valued variables. Por exemplo, E se {displaystyle G=lbrace {texto{butter}},{texto{cookies}},{texto{milk}}rbrace } então {estilo de exibição mathbb {R} ^{G}} would be a three dimensional vector space and the vector {displaystyle langle 1,2,3rangle } would represent the bundle of goods containing 1 unit of butter, 2 units of cookies and 3 units of milk.

Suppose that consumer i has wealth {displaystyle w_{eu}} de tal modo que {estilo de exibição Sigma _{eu}W_{eu}= mathbf {p} cdot mathbf {e} +Sigma _{j}mathbf {p} cdot mathbf {s_{j}^{*}} } Onde {estilo de exibição mathbf {e} } is the aggregate endowment of goods (ou seja. the sum of all consumer and producer endowments) e {estilo de exibição mathbf {s_{j}^{*}} } is the production of firm j.

Preference maximization (from the definition of price equilibrium with transfers) implica (usando {displaystyle >_{eu}} to denote the preference relation for consumer i): E se {estilo de exibição mathbf {x_{eu}} >_{eu}mathbf {x_{eu}^{*}} } então {estilo de exibição mathbf {p} cdot mathbf {x_{eu}} >mathbf {W_{eu}} } Em outras palavras, if a bundle of goods is strictly preferred to {estilo de exibição mathbf {x_{eu}^{*}} } it must be unaffordable at price {estilo de exibição mathbf {p} } . Local nonsatiation additionally implies: E se {estilo de exibição mathbf {x_{eu}} geq _{eu}mathbf {x_{eu}^{*}} } então {estilo de exibição mathbf {p} cdot mathbf {x_{eu}} geq mathbf {W_{eu}} } Para ver por que, imagine that {estilo de exibição mathbf {x_{eu}} geq _{eu}mathbf {x_{eu}^{*}} } mas {estilo de exibição mathbf {p} cdot mathbf {x_{eu}}

Porque {estilo de exibição mathbf {S^{*}} } is profit maximizing, we know {estilo de exibição Sigma _{j}mathbf {p} cdot s_{j}^{*}geq Sigma _{j}pcdot y_{j}} , assim {estilo de exibição Sigma _{eu}mathbf {p} cdot mathbf {x_{eu}} >Sigma _{j}mathbf {p} cdot mathbf {s_{j}} } . But goods must be conserved so {estilo de exibição Sigma _{eu}mathbf {x_{eu}} >Sigma _{j}mathbf {s_{j}} } . Por isso, {estilo de exibição (mathbf {X} ,mathbf {S} )} is not feasible. Since all Pareto-dominating allocations are not feasible, {estilo de exibição (mathbf {X^{*}} ,mathbf {S^{*}} )} must itself be Pareto optimal.[36] Note that while the fact that {estilo de exibição mathbf {S^{*}} } is profit maximizing is simply assumed in the statement of the theorem the result is only useful/interesting to the extent such a profit maximizing allocation of production is possible. Fortunately, for any restriction of the production allocation {estilo de exibição mathbf {S^{*}} } and price to a closed subset on which the marginal price is bounded away from 0, por exemplo., any reasonable choice of continuous functions to parameterize possible productions, such a maximum exists. This follows from the fact that the minimal marginal price and finite wealth limits the maximum feasible production (0 limits the minimum) and Tychonoff's theorem ensures the product of these compacts spaces is compact ensuring us a maximum of whatever continuous function we desire exists.

Proof of the second fundamental theorem The second theorem formally states that, under the assumptions that every production set {estilo de exibição Y_{j}} is convex and every preference relation {displaystyle geq _{eu}} is convex and locally nonsatiated, any desired Pareto-efficient allocation can be supported as a price quasi-equilibrium with transfers.[36] Further assumptions are needed to prove this statement for price equilibria with transfers.

The proof proceeds in two steps: primeiro, we prove that any Pareto-efficient allocation can be supported as a price quasi-equilibrium with transfers; então, we give conditions under which a price quasi-equilibrium is also a price equilibrium.

Let us define a price quasi-equilibrium with transfers as an allocation {estilo de exibição (x^{*},^{*})} , a price vector p, and a vector of wealth levels w (achieved by lump-sum transfers) com {estilo de exibição Sigma _{eu}W_{eu}=pcdot omega +Sigma _{j}pcdot y_{j}^{*}} (Onde {displaystyle ômega } is the aggregate endowment of goods and {estilo de exibição y_{j}^{*}} is the production of firm j) de tal modo que: eu. {displaystyle pcdot y_{j}leq pcdot y_{j}^{*}} para todos {estilo de exibição y_{j}in Y_{j}} (firms maximize profit by producing {estilo de exibição y_{j}^{*}} ) ii. For all i, E se {estilo de exibição x_{eu}>_{eu}x_{eu}^{*}} então {displaystyle pcdot x_{eu}geq w_{eu}} (E se {estilo de exibição x_{eu}} is strictly preferred to {estilo de exibição x_{eu}^{*}} then it cannot cost less than {estilo de exibição x_{eu}^{*}} ) iii. {estilo de exibição Sigma _{eu}x_{eu}^{*}=omega +Sigma _{j}s_{j}^{*}} (budget constraint satisfied) The only difference between this definition and the standard definition of a price equilibrium with transfers is in statement (ii). The inequality is weak here ( {displaystyle pcdot x_{eu}geq w_{eu}} ) making it a price quasi-equilibrium. Later we will strengthen this to make a price equilibrium.[36] Definir {estilo de exibição V_{eu}} to be the set of all consumption bundles strictly preferred to {estilo de exibição x_{eu}^{*}} by consumer i, and let V be the sum of all {estilo de exibição V_{eu}} . {estilo de exibição V_{eu}} is convex due to the convexity of the preference relation {displaystyle geq _{eu}} . V is convex because every {estilo de exibição V_{eu}} é convexo. De forma similar {displaystyle Y+{ómega }} , the union of all production sets {estilo de exibição Y_{eu}} plus the aggregate endowment, is convex because every {estilo de exibição Y_{eu}} é convexo. We also know that the intersection of V and {displaystyle Y+{ómega }} must be empty, because if it were not it would imply there existed a bundle that is strictly preferred to {estilo de exibição (x^{*},^{*})} by everyone and is also affordable. This is ruled out by the Pareto-optimality of {estilo de exibição (x^{*},^{*})} .

These two convex, non-intersecting sets allow us to apply the separating hyperplane theorem. This theorem states that there exists a price vector {estilo de exibição pneq 0} and a number r such that {displaystyle pcdot zgeq r} para cada {displaystyle zin V} e {displaystyle pcdot zleq r} para cada {displaystyle zin Y+{ómega }} . Em outras palavras, there exists a price vector that defines a hyperplane that perfectly separates the two convex sets.

Next we argue that if {estilo de exibição x_{eu}geq _{eu}x_{eu}^{*}} for all i then {displaystyle pcdot (Sigma _{eu}x_{eu})geq r} . This is due to local nonsatiation: there must be a bundle {displaystyle x'_{eu}} arbitrarily close to {estilo de exibição x_{eu}} that is strictly preferred to {estilo de exibição x_{eu}^{*}} and hence part of {estilo de exibição V_{eu}} , assim {displaystyle pcdot (Sigma _{eu}x'_{eu})geq r} . Taking the limit as {displaystyle x'_{eu}rightarrow x_{eu}} does not change the weak inequality, assim {displaystyle pcdot (Sigma _{eu}x_{eu})geq r} também. Em outras palavras, {estilo de exibição x_{eu}} is in the closure of V.

Using this relation we see that for {estilo de exibição x_{eu}^{*}} em si {displaystyle pcdot (Sigma _{eu}x_{eu}^{*})geq r} . We also know that {estilo de exibição Sigma _{eu}x_{eu}^{*}in Y+{ómega }} , assim {displaystyle pcdot (Sigma _{eu}x_{eu}^{*})ler} também. Combining these we find that {displaystyle pcdot (Sigma _{eu}x_{eu}^{*})=r} . We can use this equation to show that {estilo de exibição (x^{*},^{*},p)} fits the definition of a price quasi-equilibrium with transfers.

Porque {displaystyle pcdot (Sigma _{eu}x_{eu}^{*})=r} e {estilo de exibição Sigma _{eu}x_{eu}^{*}=omega +Sigma _{j}s_{j}^{*}} we know that for any firm j: {displaystyle pcdot (omega +y_{j}+Sigma _{h}s_{h}^{*})leq r=pcdot (omega +y_{j}^{*}+Sigma _{h}s_{h}^{*})} por {displaystyle hneq j} which implies {displaystyle pcdot y_{j}leq pcdot y_{j}^{*}} . Similarly we know: {displaystyle pcdot (x_{eu}+Sigma _{k}x_{k}^{*})geq r=pcdot (x_{eu}^{*}+Sigma _{k}x_{k}^{*})} por {displaystyle kneq i} which implies {displaystyle pcdot x_{eu}geq pcdot x_{eu}^{*}} . These two statements, along with the feasibility of the allocation at the Pareto optimum, satisfy the three conditions for a price quasi-equilibrium with transfers supported by wealth levels {displaystyle w_{eu}=pcdot x_{eu}^{*}} para todos eu.

We now turn to conditions under which a price quasi-equilibrium is also a price equilibrium, em outras palavras, conditions under which the statement "E se {estilo de exibição x_{eu}>_{eu}x_{eu}^{*}} então {displaystyle pcdot x_{eu}geq w_{eu}} " imples "E se {estilo de exibição x_{eu}>_{eu}x_{eu}^{*}} então {displaystyle pcdot x_{eu}>w_{eu}} ". For this to be true we need now to assume that the consumption set {estilo de exibição X_{eu}} is convex and the preference relation {displaystyle geq _{eu}} é contínuo. Então, if there exists a consumption vector {displaystyle x'_{eu}} de tal modo que {displaystyle x'_{eu}in X_{eu}} e {displaystyle pcdot x'_{eu}

Por isso, for price quasi-equilibria to be price equilibria it is sufficient that the consumption set be convex, the preference relation to be continuous, and for there always to exist a "cheaper" consumption bundle {displaystyle x'_{eu}} . One way to ensure the existence of such a bundle is to require wealth levels {displaystyle w_{eu}} to be strictly positive for all consumers i.[36] See also Convex preferences Varian's theorems – a competitive equilibrium is both Pareto-efficient and envy-free. General equilibrium theory References ^ https://web.stanford.edu/~hammond/effMktFail.pdf[URL simples PDF] ^ Stiglitz, Joseph E. (1994), Whither Socialism?, Imprensa do MIT, ISBN 978-0-262-69182-6 ^ See the discussion on pp. 556 f of Mas-Colell et al. ^ 'Wealth of nations' (1776), Book IV, Chap II. ^ Feldman, Allan M. (2017), "Welfare Economics", The New Palgrave Dictionary of Economics, Londres: Palgrave Macmillan UK, pp. 1-14, doi:10.1057/978-1-349-95121-5_1417-2, ISBN 978-1-349-95121-5, recuperado 2021-11-12 ^ Paraphrased from Leçon 18 (first ed.) of the Éléments. 'L'échange de deux marchandises entre elles sur un marché régi par la libre concurrence est une opération par laquelle tous les porteurs soit de l'une des deux marchandises, soit de l'autre, soit de toutes les deux, obtiennent la plus grande satisfaction de leurs besoins compatible avec cette condition de donner de la marchandise qu'ils vendent et de recevoir de la marchandise qu'ils achètent dans une proportion commune et identique.' According to Wicksell this passage moved to Leçon 10 in the 4th ed. ^ Paul Samuelson backed him up, saying that the locus of Paretian optima can be obtained under multilateral monopoly. 'Foundations of Economic Analysis' (1947), p. 214. ^ p. 21. ^ p. 25. See also John Creedy, 'Francis Ysidro Edgeworth and Philip Henry Wicksteed' (2010), https://core.ac.uk/reader/6561724. ^ Manuale di Economia Politica con una Introduzione alla Scienza Sociale (1906) / Manuel d'Économie Politique (1909). ^ Manuale / Manuel Chap III, §22. ^ §116. ^ §33. ^ §35. ^ K. Wicksell, 'Lectures on Political Economy' I (1906), Eng. tr. (1934), pp. 82 f. ^ §35. ^ Manuel, §109–end. ^ P. UMA. Samuelson, 'Foundations of Economic Analysis' (1947), p. 212. ^ Thomas M. Humphrey, 'The Trade Theorist's Sacred Diagram: its Origin and Early Development' (1988). ^ This and the preceding quotation have been condensed from §53 and §55 of Chap. VI. ^ E. Barone, 'Il Ministro della Produzione nello Stato Colletivistica' (1908). ^ In fact he divides this value by the price of an arbitrarily chosen item, but since prices are assumed fixed this merely introduces an irrelevant asymmetry. ^ P. UMA. Samuelson, 'Foundations of Economic Analysis' (1947), pp. 214-217. ^ A. Lerner, 'The Diagrammatical Representation of Cost Conditions in International Trade' (1932), cited in Thomas M. Humphrey, 'The Trade Theorist's Sacred Diagram: its Origin and Early Development' (1988). ^ E.g. 'Nothing but prime cost [ou seja. marginal cost] enters necessarily and directly into the supply price for short periods': Alfred Marshall, 'Principles of Economics', V.v.6 (eighth ed. consulted). And cf. Knut Wicksell's 'provisional conclusion that free competition is normally a sufficient condition to ensure maximization of production', 'Lectures on Political Economy' I (1906), Eng. tr. (1934), p. 141. ^ P. UMA. Samuelson, 'Foundations of Economic Analysis' (1947), p. 217. ^ H. Hotelling, 'The General Welfare Problem in Relation to Problems of Taxation and of Railway and Utility rates' (1938), Econométrica, pp. 260, 267. ^ 'All that part of the theory of Public Finance which deals with "Social Utility" goes by the board': eu. Robbins, 'An Essay on the Nature and Significance of Economic Science' (1932), p. 125. J. UMA. King commented that 'This defence of privilege required an unconvincingly solipsistic approach to the problem of comparing the states of mind of different individuals...' ('Nicholas Kaldor' (2009), quoted in a 2011 review by Harvey Gram). ^ Feldman, Allan M. (2017), "Welfare Economics", The New Palgrave Dictionary of Economics, Londres: Palgrave Macmillan UK, pp. 1-14, doi:10.1057/978-1-349-95121-5_1417-2, ISBN 978-1-349-95121-5, recuperado 2021-11-12 ^ P. UMA. Samuelson, 'Foundations of Economic Analysis' (1947), pp. 219–249. ^ p. 245. ^ K. Arrow, 'An Extension of the Basic Theorems of Classical Welfare Economics' (1951); G. Debreu, 'The Coefficient of Resource Utilization' (1951). ^ Greenwald, Bruce C.; Stiglitz, Joseph E. (1986). "Externalities in Economies with Imperfect Information and Incomplete Markets". The Quarterly Journal of Economics. 101 (2): 229-264. doi:10.2307/1891114. ISSN 0033-5533. JSTOR 1891114. ^ Avinash Dixit, 'Whither Greenwald-Stiglitz?' (2003). ^ Greenwald and Stiglitz (1986), p. 238. ^ Saltar para: a b c d e f Mas-Colell, André; Whinston, Michael D.; Verde, Jerry R. (1995), "Capítulo 16: Equilibrium and its Basic Welfare Properties", Microeconomic Theory, imprensa da Universidade de Oxford, ISBN 978-0-19-510268-0 Categorias: Economics theoremsGeneral equilibrium theoryWelfare economics

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