Can anyone help me demonstrating wether the following function is concave or convex?

F(G,W,C,M) = G^(-0,5779) W^46,622 C^(-15,958) M^37,241

Thanks

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- Oct 28th 2012, 03:09 PMKohoutekConcavity/convexity of a multivariate function
Can anyone help me demonstrating wether the following function is concave or convex?

F(G,W,C,M) = G^(-0,5779) W^46,622 C^(-15,958) M^37,241

Thanks - Oct 28th 2012, 07:03 PMchiroRe: Concavity/convexity of a multivariate function
Hey Kohoutek.

Can you show us what you have tried? The basic definition of convexity is that f(at + (1-t)b) is in the codomain of the function (i.e. the values that actually get output from the function), where a and b are just points in the domain of the function and t is a scalar number ranging from 0 to 1 inclusive.

If a function is defined everywhere and takes on every possible value then it will be convex. - Oct 29th 2012, 04:08 PMKohoutekRe: Concavity/convexity of a multivariate function
Hi Chiro,

I see your point applied to the case of a single variable function.

For a multivariate function, I have followed either of two approaches (not sure if I am right in the conclusion about convexity in case 1.) :

- F(G,W,C,M) = G^a ·W^b· C^c· M^d is an homogeneous equation of degree a+b+c+d .

Therefore for a scalar number t:

F (tG,tW,tC,tM) = (t^(a+b+c+d))·(G^a)·(W^b)·(C^c)·(M^d)

If a+b+c+d>1, equation F presents*increasing returns to scale*(this is the interpretation from an “economic” standpoint). Therefore, we can state that the function is convex.

The equation I have posted gives a+b+c+d =-2,5779+46,622-15,958+37,241 = 65,3271 > 1 shows increasing*returns to scale*. Thus it is convex.

- In reality a more accurate determination of convexity and/or quasi convexity would be given by demonstrating that the hessian of function F is H(F) > 0. This alternative requires the obtention of all the second derivatives of F and the calculation of the determinant of a 4x4 matrix which means a long and tiresome algebraic development. Have not been able to complete such a huge job (at the moment).

Is it correct to conclude convexity following the reasoning in 1. concerning homogeneity of the function and increasing returns ?

Thanks - Oct 29th 2012, 07:48 PMchiroRe: Concavity/convexity of a multivariate function
The difference between single and multivariable functions is that a and b are vectors, but t is still a scalar in the [0,1] range.

If you want a conclusive proof, then the suggestion of using the Hessian would be a good one. If you can calculate the partial derivatives (just keep one variable varying and the rest are constant) then you can calculate the Hessian and its determinant.