Search results
Results from the WOW.Com Content Network
A "craft using an inertial mass reduction device" (2016), one embodiment of which could be a high speed "hybrid aerospace/undersea craft" able to "engineer the fabric of our reality at the most fundamental level", [7] the patent application for which was supported by the Naval Aviation Enterprise's chief technical officer on the grounds that ...
The Testament of Mary (play) They Call Me Q; Thom Pain (based on nothing) Three Kings (play) Thurgood (play) Ticker (play) Tongues (play) Topless (play) Torsten (Andy Bell series) Tru (play) Twigs (play) Twilight: Los Angeles, 1992
The Slinky is a helical spring toy invented and developed by American naval engineer Richard T. James in 1943 and successfully demonstrated at Gimbels department store in Philadelphia on November 27, 1945.
Objects also have "inertial mass," which determines the relationship between the force applied to an object and how much it accelerates. Newton had pointed out that, even though they are defined differently, gravitational mass and inertial mass always seem to be equal. But until Einstein, no one had conceived a good explanation as to why this ...
And indeed, it was 70 years from the first successful re-creation of fusion—the detonation of a thermonuclear device codenamed Ivy Mike, in 1952—to NIF’s successful ignition reaction.
Inertial compensators are also used in simulators or rides, making them more realistic by creating artificial sensations of acceleration and other movement. The Disneyland ride “Star Tours: The Adventure Continues” is a fair example of this principle. There are many types of physical devices that can act as inertia dampers:
Some of the tests of the equivalence principle use names for the different ways mass appears in physical formulae. In nonrelativistic physics three kinds of mass can be distinguished: [14] Inertial mass intrinsic to an object, the sum of all of its mass–energy. Passive mass, the response to gravity, the object's weight.
Hughes–Drever experiments (also clock comparison-, clock anisotropy-, mass isotropy-, or energy isotropy experiments) are spectroscopic tests of the isotropy of mass and space. Although originally conceived of as a test of Mach's principle , they are now understood to be an important test of Lorentz invariance .