Since 1994, EMAG Technologies Inc. has provided innovative RF solutions to the Industry and Government. The EMAGWARE division of EMAG Technologies Inc. was spun off in 2006 to focus on developing and distributing advanced computer aided design tools and providing dedicated service to our software customers. EMAGWARE now offers a suite of commercial electromagnetic and RF simulation tools with full technical support backed by a dynamic team of practicing engineers with expertise in design, fabrication, prototyping, test and evaluation of circuits, components and systems.
EMAG Technologies fuses leading edge research and development with an unwavering dedication to customer satisfaction to provide the highest quality products and services to the RF industry.
The EMAGWARE Division provides affordable web-based software tools and computing services for engineering applications that would enable active collaboration among users, developers, academia and research community to harness the power of collective knowledge.
September, 2009
EM.CUBE 2009r2 Released
EM.CUBE 2009r2 features numerous enhancements to the Planar, CAD, and Propagation modules. An updated software installation package along with a detailed revision list is available from the MyCUBE support and collaboration portal. This update is free for all licensed users.
June, 2009
EMAGWARE Attends the 2009 MTTS International Microwave Symposium
EMAGWARE revealed the latest advancements to EM.CUBE alongside the debut of our much anticipated online collaborative user environment MyCUBE at the 2009 International Microwave Symposium (IMS) Exhibition in Boston, MA.
Sept, 2008
EMAGWARE Announces the Release of EM.CUBE 2008.12!
EMAGWARE is proud to unveil our latest version of EM.CUBE. This release provides enhancements to many of EM.CUBE's most exciting features. For a complete listing of what's changed, log in to your MyCUBE page.
June, 2008
EMAGWARE at the 2008-IEEE IMS & APS
EMAGWARE showcased its new flagship product EM.CUBE at the 2008 International Microwave Symposium (IMS) Exhibition in Atlanta, GA. This modular software suite, which integrates EMAGWARE's legacy software tools along with impressive new functionality, was received with great excitement by our existing customers as well as enthusiasts from within the RF community.
In July, EMAGWARE also demonstrated EM.CUBE's powerful CAD and simulation modules at the Antennas and Propagation Symposium (APS) in San Diego, CA.
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Believe it or not... James Clark Maxwell strongly opposed Darwin's theory of evolution. He believed that the speculations involved in evolutionary thinking contradicted scientific evidence. By contrast, Pierre-Simon Laplace was an outspoken Atheist. He suggested that our solar system began as a cloud of gas which contracted over millions of years to produce the sun, planets and moons. Laplace further suggested that his nebular theory disproved the existence of a divine creator. In reply to Napoleon who had asked why he hadn't mentioned God in his book on astronomy, Laplace asserted, "Je n'avais pas besoin de cette hypothèse-là" (I had no need of that hypothesis) ... Not willing to accept Laplace's conclusions, Maxwell was able to mathematically disprove his nebular hypothesis by uncovering two major flaws in Laplace's theory. Specifically, Maxwell proclaimed that; first, such nebular material would never condense into planets, and second, there would be no way to slow the rapidly spinning mass in the center to form our present slowly rotating sun. Laplace's theory was subsequently discarded. |
Johannes Kepler, the famous German mathematician and astronomer, formulated his seminal laws of planetary motion (laws of orbits, equal areas and periods) during the first decade of the 17th century based on an enormous body of astronomical observation data. Kepler’s laws laid the foundation for Newton’s universal laws of motion (developed half a century later), and are considered one of the first major human accomplishments in explaining the universe using simple mathematical models. Kepler spent many years perfecting a theory to explain our solar system using a system of platonic solids, which are convex regular polyhedra named after the ancient Greek philosopher Plato. There are five platonic solids: tetrahedron, cube, octahedron, dodecahedron and icosahedron. Kepler attempted to find a relation between the five known planets at that time (Mercury, Venus, Mars, Jupiter and Saturn excluding the Earth) and the five Platonic solids. He laid out a model of the solar system in which the five solids were set inside one another, separated by a series of inscribed and circumscribed spheres called orbs. The six spheres each corresponded to one of the planets, with the sun located at the center of the system. Kepler thought that he had revealed God’s geometrical plan for the universe. However, his certitude was short lived. Only a few years later, Kepler abandoned this earlier theory in favor of one based on elliptical orbits for all the planets. This same elliptical orbitr thesis is the one Issac Newton later explained using his universal theory of gravitation. |
