Implicit function

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In mathematics, an implicit equation is a relation of the form ${\displaystyle R(x_1,\dots ,x_n)=0,}$ where Template:Mvar is a function of several variables (often a polynomial). For example, the implicit equation of the unit circle is ${\displaystyle x^2+y^2-1=0.}$

An implicit function is a function that is defined by an implicit equation, that relates one of the variables, considered as the value of the function, with the others considered as the arguments.^[1]Template:Rp For example, the equation ${\displaystyle x^2+y^2-1=0}$ of the unit circle defines Template:Mvar as an implicit function of Template:Mvar, ${\displaystyle y=\sqrt{1-x^2}}$, assuming −1 ≤ x ≤ 1Script error: No such module "Check for unknown parameters". and Template:Mvar is restricted to nonnegative values. Some equations do not admit an explicit solution.

The implicit function theorem provides conditions under which some kinds of implicit equations define implicit functions, namely those that are obtained by equating to zero multivariable functions that are continuously differentiable.

Examples

Inverse functions

A common type of implicit function is an inverse function. Not all functions have a unique inverse function. If Template:Mvar is a function of Template:Mvar that has a unique inverse, then the inverse function of Template:Mvar, called g⁻¹Script error: No such module "Check for unknown parameters"., is the unique function giving a solution of the equation

${\displaystyle y=g(x)}$

for Template:Mvar in terms of Template:Mvar. This solution can then be written as

${\displaystyle x=g^{-1}(y).}$

Defining g⁻¹Script error: No such module "Check for unknown parameters". as the inverse of Template:Mvar is an implicit definition. For some functions Template:Mvar, g⁻¹(y)Script error: No such module "Check for unknown parameters". can be written out explicitly as a closed-form expression — for instance, if g(x) = 2x − 1Script error: No such module "Check for unknown parameters"., then g⁻¹(y) = Template:Sfrac(y + 1)Script error: No such module "Check for unknown parameters".. However, this is often not possible, or only by introducing a new notation (as in the product log example below).

Intuitively, an inverse function is obtained from Template:Mvar by interchanging the roles of the dependent and independent variables.

Example: The product log is an implicit function giving the solution for Template:Mvar of the equation y − xe^x = 0Script error: No such module "Check for unknown parameters"..

Algebraic functions

Script error: No such module "Labelled list hatnote". An algebraic function is a function that satisfies a polynomial equation whose coefficients are themselves polynomials. For example, an algebraic function in one variable Template:Mvar gives a solution for Template:Mvar of an equation

${\displaystyle a_n(x)y^n+a_{n-1}(x)y^{n-1}+\cdots +a_0(x)=0,}$

where the coefficients a_i(x)Script error: No such module "Check for unknown parameters". are polynomial functions of Template:Mvar. This algebraic function can be written as the right side of the solution equation y = f(x)Script error: No such module "Check for unknown parameters".. Written like this, Template:Mvar is a multi-valued implicit function.

Algebraic functions play an important role in mathematical analysis and algebraic geometry. A simple example of an algebraic function is given by the left side of the unit circle equation:

${\displaystyle x^2+y^2-1=0.}$

Solving for Template:Mvar gives an explicit solution:

${\displaystyle y=\pm \sqrt{1-x^2}.}$

But even without specifying this explicit solution, it is possible to refer to the implicit solution of the unit circle equation as y = f(x)Script error: No such module "Check for unknown parameters"., where Template:Mvar is the multi-valued implicit function.

While explicit solutions can be found for equations that are quadratic, cubic, and quartic in Template:Mvar, the same is not in general true for quintic and higher degree equations, such as

${\displaystyle y^5+2y^4-7y^3+3y^2-6y-x=0.}$

Nevertheless, one can still refer to the implicit solution y = f(x)Script error: No such module "Check for unknown parameters". involving the multi-valued implicit function Template:Mvar.

Caveats

Not every equation R(x, y) = 0Script error: No such module "Check for unknown parameters". implies a graph of a single-valued function, the circle equation being one prominent example. Another example is an implicit function given by x − C(y) = 0Script error: No such module "Check for unknown parameters". where Template:Mvar is a cubic polynomial having a "hump" in its graph. Thus, for an implicit function to be a true (single-valued) function it might be necessary to use just part of the graph. An implicit function can sometimes be successfully defined as a true function only after "zooming in" on some part of the Template:Mvar-axis and "cutting away" some unwanted function branches. Then an equation expressing Template:Mvar as an implicit function of the other variables can be written.

The defining equation R(x, y) = 0Script error: No such module "Check for unknown parameters". can also have other pathologies. For example, the equation x = 0Script error: No such module "Check for unknown parameters". does not imply a function f(x)Script error: No such module "Check for unknown parameters". giving solutions for Template:Mvar at all; it is a vertical line. In order to avoid a problem like this, various constraints are frequently imposed on the allowable sorts of equations or on the domain. The implicit function theorem provides a uniform way of handling these sorts of pathologies.

Implicit differentiation

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Implicit function theorem

File:Implicit circle.svg

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Let R(x, y)Script error: No such module "Check for unknown parameters". be a differentiable function of two variables, and (a, b)Script error: No such module "Check for unknown parameters". be a pair of real numbers such that R(a, b) = 0Script error: No such module "Check for unknown parameters".. If Template:Sfrac ≠ 0Script error: No such module "Check for unknown parameters"., then R(x, y) = 0Script error: No such module "Check for unknown parameters". defines an implicit function that is differentiable in some small enough neighbourhood of Template:Open-open; in other words, there is a differentiable function Template:Mvar that is defined and differentiable in some neighbourhood of Template:Mvar, such that R(x, f(x)) = 0Script error: No such module "Check for unknown parameters". for Template:Mvar in this neighbourhood.

The condition Template:Sfrac ≠ 0Script error: No such module "Check for unknown parameters". means that (a, b)Script error: No such module "Check for unknown parameters". is a regular point of the implicit curve of implicit equation R(x, y) = 0Script error: No such module "Check for unknown parameters". where the tangent is not vertical.

In a less technical language, implicit functions exist and can be differentiated, if the curve has a non-vertical tangent.^[2]Template:Rp

In algebraic geometry

Consider a relation of the form R(x₁, …, x_n) = 0Script error: No such module "Check for unknown parameters"., where Template:Mvar is a multivariable polynomial. The set of the values of the variables that satisfy this relation is called an implicit curve if n = 2Script error: No such module "Check for unknown parameters". and an implicit surface if n = 3Script error: No such module "Check for unknown parameters".. The implicit equations are the basis of algebraic geometry, whose basic subjects of study are the simultaneous solutions of several implicit equations whose left-hand sides are polynomials. These sets of simultaneous solutions are called affine algebraic sets.

In differential equations

The solutions of differential equations generally appear expressed by an implicit function.^[3]

Applications in economics

Marginal rate of substitution

In economics, when the level set R(x, y) = 0Script error: No such module "Check for unknown parameters". is an indifference curve for the quantities Template:Mvar and Template:Mvar consumed of two goods, the absolute value of the implicit derivative Template:SfracScript error: No such module "Check for unknown parameters". is interpreted as the marginal rate of substitution of the two goods: how much more of Template:Mvar one must receive in order to be indifferent to a loss of one unit of Template:Mvar.

Marginal rate of technical substitution

Similarly, sometimes the level set R(L, K)Script error: No such module "Check for unknown parameters". is an isoquant showing various combinations of utilized quantities Template:Mvar of labor and Template:Mvar of physical capital each of which would result in the production of the same given quantity of output of some good. In this case the absolute value of the implicit derivative Template:SfracScript error: No such module "Check for unknown parameters". is interpreted as the marginal rate of technical substitution between the two factors of production: how much more capital the firm must use to produce the same amount of output with one less unit of labor.

Optimization

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Often in economic theory, some function such as a utility function or a profit function is to be maximized with respect to a choice vector Template:Mvar even though the objective function has not been restricted to any specific functional form. The implicit function theorem guarantees that the first-order conditions of the optimization define an implicit function for each element of the optimal vector x*Script error: No such module "Check for unknown parameters". of the choice vector Template:Mvar. When profit is being maximized, typically the resulting implicit functions are the labor demand function and the supply functions of various goods. When utility is being maximized, typically the resulting implicit functions are the labor supply function and the demand functions for various goods.

Moreover, the influence of the problem's parameters on x*Script error: No such module "Check for unknown parameters". — the partial derivatives of the implicit function — can be expressed as total derivatives of the system of first-order conditions found using total differentiation.

See also

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References

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Further reading

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External links

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