opticalraytracer 3.2-1.1ubuntu1 source package in Ubuntu

Changelog

opticalraytracer (3.2-1.1ubuntu1) raring; urgency=low

  * New merge from Debian. Remaining changes:
   - debian/rules: remove extra calls to patch build.xml and clean it up, also
     remove the unnecessary call to ant clean (which will get done by dh_clean).
   - debian/control: drop the Build-Depends on quilt.
 -- Oussama Bounaim <email address hidden>   Fri, 02 Nov 2012 11:05:03 +0100

Upload details

Uploaded by:
oussama on 2012-11-10
Sponsored by:
Andrew Starr-Bochicchio
Uploaded to:
Raring
Original maintainer:
Ubuntu Developers
Architectures:
all
Section:
science
Urgency:
Low Urgency

See full publishing history Publishing

Series Pocket Published Component Section
Disco release on 2018-10-30 universe science
Cosmic release on 2018-05-01 universe science
Bionic release on 2017-10-24 universe science
Artful release on 2017-04-20 universe science
Xenial release on 2015-10-22 universe science
Trusty release on 2013-10-18 universe science

Builds

Raring: [FULLYBUILT] i386

Downloads

File Size SHA-256 Checksum
opticalraytracer_3.2.orig.tar.gz 750.5 KiB bf58fac1df68ee676e1f147235d0c82a045e4edc6745c021aff71d3d4f40d4d7
opticalraytracer_3.2-1.1ubuntu1.debian.tar.gz 4.9 KiB 6fbf5f879d5c2e3e6edd60e36abcd5d797cad0857ba90122312f69c359a8f6f4
opticalraytracer_3.2-1.1ubuntu1.dsc 2.2 KiB 7fe455d2895d68c23f527458b199d5a9f490349eb0610f7bd781de24c45c6375

Available diffs

View changes file

Binary packages built by this source

opticalraytracer: Virtual lens/mirror design workshop

 OpticalRayTracer is an application that analyzes systems of lenses and mirrors.
 It uses optical principles and a virtual optical bench to predict the behavior
 of many kinds of ordinary and exotic lens types as well as flat and curved
 mirrors. OpticalRayTracer includes an advanced, easy-to-use interface that
 allows the user to rearrange the optical configuration by dragging objects
 around using the mouse.
 .
 OpticalRayTracer fully analyzes lens optical properties, including refraction
 and dispersion. The dispersion display uses color-coded light beams to simplify
 interpretation of the results.
 .
 OpticalRayTracer allows the creation of mirrors, flat and curved. In modern
 optical designs, mirrors often produce better results than lenses, for example
 in astronomical instruments. Such instruments can be roughed out in
 OpticalRayTracer's virtual workbench.