Maple Professional
Maple Academic
Maple Student Edition
Maple Personal Edition
Maple Player
Maple Player for iPad
MapleSim Professional
MapleSim Academic
Maple T.A. - Testing & Assessment
Maple T.A. MAA Placement Test Suite
Möbius - Online Courseware
Machine Design / Industrial Automation
Aerospace
Vehicle Engineering
Robotics
Power Industries
System Simulation and Analysis
Model development for HIL
Plant Modeling for Control Design
Robotics/Motion Control/Mechatronics
Other Application Areas
Mathematics Education
Engineering Education
High Schools & Two-Year Colleges
Testing & Assessment
Students
Financial Modeling
Operations Research
High Performance Computing
Physics
Live Webinars
Recorded Webinars
Upcoming Events
MaplePrimes
Maplesoft Blog
Maplesoft Membership
Maple Ambassador Program
MapleCloud
Technical Whitepapers
E-Mail Newsletters
Maple Books
Math Matters
Application Center
MapleSim Model Gallery
User Case Studies
Exploring Engineering Fundamentals
Teaching Concepts with Maple
Maplesoft Welcome Center
Teacher Resource Center
Student Help Center
DEtools[line_int] - compute F, the solution to Nabla(F) = G, as a line integral when the partial derivatives of F are given
Calling Sequence
line_int(DF, X)
line_int(DF, X, check, simp_proc)
Parameters
DF
-
list of partial derivatives to be used when computing the line integral
X
integration variables list to be used when computing the line integral
check
check whether DF is a total derivative before further computations
simp_proc
any simplification procedure to be applied to all integrands before evaluating the integrals
Description
The line_int command computes the solution to the equation as a line integral when the partial derivatives of F are given as a list DF. For example, if , where are partial derivatives of with respect to then line_int([Fx, Fy,...], [x,y,...]) will return up to an additive constant.
For a line integral to make sense (return an answer which is correct), DF must be a total derivative. By default, line_int does not check whether DF is true or false. It is, however, possible to force line_int to check before doing any further computations, by including the word check in the calling sequence as the third or fourth argument.
By default line_int does not apply any simplification to the integrands before evaluating the line integral. However, in many cases (especially if the dimension of the line integral is greater than 2), it may be convenient to simplify the integrand before performing each integration: Enter a simplification procedure as the third or fourth argument of the command.
This function is part of the DEtools package, and so it can be used in the form line_int(..) only after executing the command with(DEtools). However, it can always be accessed through the long form of the command by using DEtools[line_int](..).
Examples
This example uses three variables.
Here is an example of the most general line integral of two variables.
This example uses the optional check argument. Let's introduce a 'false' total derivative.
The extra argument check forces the command to verify the integrability conditions; an error message is returned when DF is not a total derivative.
Error, (in `ODEtools/line_int`) The given first argument, [y^2, 2*x^2*y], is not a total derivative
See Also
DEtools, dsolve, int, PDEtools
Download Help Document
