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searching for Differential of a function 8 found (21 total)

alternate case: differential of a function

Cotangent space (1,709 words) [view diff] no match in snippet view article find links to article

In differential geometry, the cotangent space is a vector space associated with a point x {\displaystyle x} on a smooth (or differentiable) manifold M

Jet group (466 words) [view diff] exact match in snippet view article find links to article

is a more precise definition of the jet group. Let k ≥ 2. The differential of a function f: Rk → R can be interpreted as a section of the cotangent bundle

Maxwell relations (3,122 words) [view diff] exact match in snippet view article find links to article

simple partial differentiation rules, in particular the total differential of a function and the symmetry of evaluating second order partial derivatives

Juha Heinonen (817 words) [view diff] exact match in snippet view article find links to article

but only various constructions corresponding to the norm of a differential of a function. In 1992 Heinonen was a Sloan Research Fellow. In 2002 he was

Laplace's equation (5,075 words) [view diff] exact match in snippet view article find links to article

{\displaystyle \nabla \times \mathbf {V} =v_{x}-u_{y}=0.} If we define the differential of a function ψ by d ψ = u d y − v d x , {\displaystyle d\psi =u\,dy-v\,dx,}

Functional derivative (5,102 words) [view diff] exact match in snippet view article find links to article

=\delta \rho } , and then this is similar in form to the total differential of a function F ( ρ 1 , ρ 2 , … , ρ n ) {\displaystyle F(\rho _{1},\rho _{2}

Exact differential equation (5,225 words) [view diff] exact match in snippet view article find links to article

nomenclature of "exact differential equation" refers to the exact differential of a function. For a function F ( x 0 , x 1 , . . . , x n − 1 , x n ) {\displaystyle

Conley conjecture (418 words) [view diff] exact match in snippet view article find links to article

{\displaystyle \omega (V,\cdot )} is exact (i.e., equals to the differential of a function H {\displaystyle H} . A Hamiltonian diffeomorphism ϕ : M → M {\displaystyle