Notes on isotropic geometry of production models

Chen, Bang‐Yen; Decu, Simona; Verstraelen, Leopold

doi:10.5937/kgjmath1401023c

Cited by 22 publications

(16 citation statements)

References 17 publications

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“…For more details of , 1  n I see (Chen et al, 2014), (Sachs, 1978) and (Milin Sipus and Divjak, 1998). …”

Section: Translation Hypersurfaces Inmentioning

confidence: 99%

Classification Results on Surfaces in The Isotropic 3‐Space

Aydın¹

2016

AKU-J. Sci. Eng.

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The isotropic 3-space which is one of the Cayley-Klein spaces is obtained from the Euclidean space by substituting the usual Euclidean distance with the isotropic distance. In the present paper, we give several classifications on the surfaces in with constant relative curvature (analogue of the Gaussian curvature) and constant isotropic mean curvature. In particular, we classify the helicoidal surfaces in with constant curvature and analyze some special curves on these.

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“…For more details of , 1  n I see (Chen et al, 2014), (Sachs, 1978) and (Milin Sipus and Divjak, 1998). …”

Section: Translation Hypersurfaces Inmentioning

confidence: 99%

Classification Results on Surfaces in The Isotropic 3‐Space

Aydın¹

2016

AKU-J. Sci. Eng.

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“…B.-Y. Chen, et al [7,13] investigated the graph hypersurfaces of the production models via the isotropic geometry. In the present paper, we classify the graph surfaces of product production functions of 2 variables with constant curvature in the isotropic 3-space I 3 .…”

Section: Muhittin Evren Aydin and Mahmut Ergutmentioning

confidence: 99%

Isotropic geometry of graph surfaces associated with product production functions in economics

Aydın¹,

Ergüt²

2016

Tamkang J. Math.

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A production function is a mathematical formalization in economics which denotes the relations between the output generated by a firm, an industry or an economy and the inputs that have been used in obtaining it. In this paper, we study the product production functions of 2 variables in terms of the geometry of their associated graph surfaces in the isotropic $3-$space $\mathbb{I}^{3}$. In particular, we derive several classification results for the graph surfaces of product production functions in $\mathbb{I}^{3}$ with constant curvature.

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“…The characterization of the production models with constant elasticity of production, with proportional marginal rate of substitution (PMRS) property and with constant elasticity of substitution (CES) property is a challenging problem [3][4][5][6][7] and several classification results were obtained in the last years for different production functions, such as homogeneous, homothetic, quasi-sum and quasi-product production functions [8][9][10][11]. Other notable results concerning the above production models were recently derived using a differential geometric approach [12][13][14][15][16][17][18][19][20][21][22][23][24][25]. This treatment is based on the fact that one can associate a graph hypersurface to any production function and it is remarkable that one can relate basic concepts from production theory with some differential geometric invariants (intrinsic and extrinsic) of the associated hypersurface [26,27].…”

Section: Introductionmentioning

confidence: 99%

On Quasi-Homogeneous Production Functions

Vîlcu

2019

Symmetry

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In this paper, we investigate the class of quasi-homogeneous production models, obtaining the classification of such models with constant elasticity with respect to an input as well as with respect to all inputs. Moreover, we prove that a quasi-homogeneous production function f satisfies the proportional marginal rate of substitution property if and only f reduces to some symmetric production functions.

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Notes on isotropic geometry of production models

Cited by 22 publications

References 17 publications

Classification Results on Surfaces in The Isotropic 3‐Space

Classification Results on Surfaces in The Isotropic 3‐Space

Isotropic geometry of graph surfaces associated with product production functions in economics

On Quasi-Homogeneous Production Functions

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