# Differential

### İfadeler ve örnek cümleler

### differential equations (diferansiyel denklemler)

It is useful in the study of partial differential equations.

Using differential equations, formula_5 becomes the general solution.

This has had an effect on the theory of partial differential equations.

### differential equation (diferansiyel denklem)

The differential equation of the curve is: formula_1.

It is also a prototype solution of a differential equation.

A differential equation for the curve may be derived as follows.

### partial differential (kısmi diferansiyel)

It is useful in the study of partial differential equations.

This has had an effect on the theory of partial differential equations.

The Fokker–Planck equation is a deterministic partial differential equation.

### partial differential equations (kısmi diferansiyel denklemler)

It is useful in the study of partial differential equations.

This has had an effect on the theory of partial differential equations.

PDEs find their generalisation in stochastic partial differential equations.

### differential geometry (diferansiyel geometri)

"Complex differential geometry" is the study of complex manifolds.

He also worked on invariant theory and projective differential geometry.

Other significant results were on Pontryagin duality and differential geometry.

### ordinary differential (sıradan diferansiyel)

He is also teaching ordinary differential equations to mechatronics engineering department.

First-order linear non-homogeneous ODEs (ordinary differential equations) are not separable.

Boltzmann’s transformation converts Fick's second law into an easily solvable ordinary differential equation.

### differential diagnosis (ayırıcı tanı)

The following are considered differential diagnosis for Amyotrophy:

It is important to include those pathologies for a complete as possible differential diagnosis.

She becomes an intrusive participant in the team's differential diagnosis, much to House's annoyance.

### partial differential equation

The Fokker–Planck equation is a deterministic partial differential equation.

The Gross-Pitaevskii equation is a partial differential equation in space and time variables.

In many cases, the functional being solved depends on the solution of a given partial differential equation defined on the variable domain.

### ordinary differential equations (adi diferansiyel denklemler)

He is also teaching ordinary differential equations to mechatronics engineering department.

First-order linear non-homogeneous ODEs (ordinary differential equations) are not separable.

It uses nonlinear state-space models in continuous time, specified using stochastic or ordinary differential equations.

### differential forms

Thus sections of the bundle formula_51 act on differential forms.

Vectors have an action on differential forms given by the interior product.

This interpretation can equivalently be restated in the language of differential forms.

### differential operator

Here, the differential operator formula_32 is defined as formula_33"."

Euler's notation uses a differential operator formula_53, which is applied to a function formula_18 to give the first derivative formula_55.

In calculus, an example of a higher-order function is the differential operator formula_1, which returns the derivative of a function formula_2.

### goal differential

Despite their loss to Jamaica, Haiti won the group based on goal differential.

However, they were relegated from the Premier League on the last day of the 2007/08 season on goal differential.

The outcome was determined on the final match of the season with Ukraine United edging Vorkuta out with a higher goal differential by five goals.

### differential operators

The commutators are second order differential operators from to .

Partial differential equations can be classified by considering the matrix of coefficients of the highest-order differential operators of the equation.

In 2002, he solved with Pascal Auscher, Michael T. Lacey, Philipp Tchamitchian and Steve Hofmann the open Kato root problem for elliptic differential operators.

### linear differential

Euler's notation is useful for stating and solving linear differential equations.

Other examples are solutions of linear differential equations with polynomial coefficients.

A linear differential equation with constant coefficients is transformed into an easily solvable algebraic equation.

### slip differential (kaymalı diferansiyel)

The transaxle featured a viscous coupling limited slip differential to improve traction.

They feature all the upgrades of Roadsport and Seven 270R and also feature a limited slip differential and a power increase.

They feature all the upgrades of Roadsport and Tracksport and also feature a limited slip differential and a power increase to 140bhp.

### limited slip differential

The transaxle featured a viscous coupling limited slip differential to improve traction.

They feature all the upgrades of Roadsport and Seven 270R and also feature a limited slip differential and a power increase.

They feature all the upgrades of Roadsport and Tracksport and also feature a limited slip differential and a power increase to 140bhp.

### ordinary differential equation

Boltzmann’s transformation converts Fick's second law into an easily solvable ordinary differential equation.

An ordinary differential equation or ODE is an equation containing a function of one independent variable and its derivatives.

Summing the forces on the mass results in the following ordinary differential equation: The solution to this equation depends on the amount of damping.