1 B ⋅ − − = uuua 2 A β
... external influences including mechanical deformation. The latter offers a tempting prospect of controlling graphene’s properties by strain and, recently, several reports have examined graphene under uniaxial deformation [4-8]. Although the strain can induce additional Raman features [7,8], no signif ...
... external influences including mechanical deformation. The latter offers a tempting prospect of controlling graphene’s properties by strain and, recently, several reports have examined graphene under uniaxial deformation [4-8]. Although the strain can induce additional Raman features [7,8], no signif ...
ABSTRACT Trinity: A Unified Treatment of Turbulence, Transport, and Heating in Magnetized Plasmas
... slow evolution of the large-scale plasma profiles. Because of the enormous range of scales involved and the high dimensionality of the problem, resolved first-principles global simulations are very challenging using conventional (brute force) techniques. In this thesis, the problem of resolving turb ...
... slow evolution of the large-scale plasma profiles. Because of the enormous range of scales involved and the high dimensionality of the problem, resolved first-principles global simulations are very challenging using conventional (brute force) techniques. In this thesis, the problem of resolving turb ...
PHYSICS HOMEWORK #1 KINEMATICS DISPLACEMENT & VELOCITY
... The first quantitative step in adding these two vectors together is to break each vector into components that are either parallel or perpendicular to the x and y axes.The resultant R goes from the tail of the first vector to the tip of the last vector as shown. ...
... The first quantitative step in adding these two vectors together is to break each vector into components that are either parallel or perpendicular to the x and y axes.The resultant R goes from the tail of the first vector to the tip of the last vector as shown. ...
Woodward effect
The Woodward effect, also referred to as a Mach effect, one of at least three predicted Mach effects, is part of a hypothesis proposed by James F. Woodward in 1990.The hypothesis states that transient mass fluctuations arise in any object that absorbs internal energy while undergoing a proper acceleration. Harnessing this effect could generate a thrust, which Woodward and others claim to measure in various experiments. If proven to exist, the Woodward effect could be used in the design of spacecraft engines of a field propulsion engine that would not have to expel matter to accelerate. Such an engine, called a Mach effect thruster (MET), would be a breakthrough in space travel. So far, no conclusive proof of the existence of this effect has been presented. Experiments to confirm and utilize this effect by Woodward and others continue.