<--- Back to Details
First PageDocument Content
Differential equations / Derivative / Linear differential equation / Analysis / Optimal control / Radial basis function network / PROPT / Mathematical analysis / Mathematics / Differential calculus
Date: 2007-07-18 17:57:35
Differential equations
Derivative
Linear differential equation
Analysis
Optimal control
Radial basis function network
PROPT
Mathematical analysis
Mathematics
Differential calculus

INSTITUTE OF PHYSICS PUBLISHING Inverse Problems–991 INVERSE PROBLEMS PII: S0266

Add to Reading List

Source URL: links.uwaterloo.ca

Download Document from Source Website

File Size: 148,95 KB

Share Document on Facebook

Similar Documents

A PRIORI BOUNDS FOR WEAK SOLUTIONS TO ELLIPTIC EQUATIONS WITH NONSTANDARD GROWTH PATRICK WINKERT AND RICO ZACHER Abstract. In this paper we study elliptic equations with a nonlinear conormal derivative boundary condition

DocID: 1vlOe - View Document

Classroom Voting Questions: Calculus II Section 7.2 Integration by Parts 1. What is the derivative of f (x) = 31 xe3x − 19 e3x + 25? (a) (b) (c)

DocID: 1viY1 - View Document

CDKL5 Program of Excellence Pilot Grant Program Application Title: Therapeutic potential of pregnenolone and its synthetic non-metabolized derivative for CDKL5 disorder PI: Charlotte Kilstrup-Nielsen, PhD

DocID: 1vhuN - View Document

The Tangent Plane Before Starting See the Animation on local linearity We saw for functions of one variable the derivative is the slope of the tangent line. Further if we zoomed in on the point we saw that the function b

DocID: 1v7LU - View Document

Production and proteomic characterisation of purified protein derivative from Mycobacterium avium subsp. paratuberculosis

DocID: 1v7kw - View Document