The Pauli Principle
... • The prediction that even a macroscopic number of bosons can occupy one state: A Bose-Einstein condensate was shown experimentally in 1995 and won Cornelle, Ketterle and Wieman the 2001 Nobelprize. • The properties of bosons also explains that certain liquids, e.g., liquid Helium (the isotope Heliu ...
... • The prediction that even a macroscopic number of bosons can occupy one state: A Bose-Einstein condensate was shown experimentally in 1995 and won Cornelle, Ketterle and Wieman the 2001 Nobelprize. • The properties of bosons also explains that certain liquids, e.g., liquid Helium (the isotope Heliu ...
mec66
... But tan is the slope of the displacement vector, therefore the velocity vector at all times is perpendicular to the displacement vector. The instantaneous velocity is always in the direction of the tangent to the circle at the instantaneous position of the particle. This velocity is known as the t ...
... But tan is the slope of the displacement vector, therefore the velocity vector at all times is perpendicular to the displacement vector. The instantaneous velocity is always in the direction of the tangent to the circle at the instantaneous position of the particle. This velocity is known as the t ...
Momentum - HRSBSTAFF Home Page
... Think of a dump truck and a car. If they are stopped in the same time interval, it will take a ______ (more or less) force to stop the truck than the car. Why? Think of two cars of equal mass. If one car is moving faster,it will take _____ (more or less) force to stop the faster car in the same time ...
... Think of a dump truck and a car. If they are stopped in the same time interval, it will take a ______ (more or less) force to stop the truck than the car. Why? Think of two cars of equal mass. If one car is moving faster,it will take _____ (more or less) force to stop the faster car in the same time ...
Heisenberg microscope and which-way experiments
... So there was a big problem: Does light have wave-like or particle-like behavior? In 1905 Albert Einstein solved the problem. He explained that light should be thought of as a stream of particles. Each one has a certain energy that depends on it’s wavelenght. These light particles were called photons ...
... So there was a big problem: Does light have wave-like or particle-like behavior? In 1905 Albert Einstein solved the problem. He explained that light should be thought of as a stream of particles. Each one has a certain energy that depends on it’s wavelenght. These light particles were called photons ...
Lecture 10
... Wavefunctions and orbitals Obital: A wavefunction defined by the quantum numbers n, l and ml (which are solutions of the wave equation) Orbital is a region of space occupied by an electron Orbitals has energies, shapes and orientation in space ...
... Wavefunctions and orbitals Obital: A wavefunction defined by the quantum numbers n, l and ml (which are solutions of the wave equation) Orbital is a region of space occupied by an electron Orbitals has energies, shapes and orientation in space ...
Q 2
... transform of the extended target charge distribution. Strictly correct for heavy nuclei: same idea but slightly more complicated expression for the proton... ...
... transform of the extended target charge distribution. Strictly correct for heavy nuclei: same idea but slightly more complicated expression for the proton... ...
Tuesday, June 21, 2005
... Another Example for Impluse In a crash test, an automobile of mass 1500kg collides with a wall. The initial and final velocities of the automobile are vi=-15.0i m/s and vf=2.60i m/s. If the collision lasts for 0.150 seconds, what would be the impulse caused by the collision and the average force ex ...
... Another Example for Impluse In a crash test, an automobile of mass 1500kg collides with a wall. The initial and final velocities of the automobile are vi=-15.0i m/s and vf=2.60i m/s. If the collision lasts for 0.150 seconds, what would be the impulse caused by the collision and the average force ex ...
PPT
... asymmetry. For starters, in an equilibrated world (entropy already maximized, no entropic time asymmetry) there is no information (that's why Maxwell's demon can't function) so there could be no minds whatever. • The low-entropy property of the past is needed to allow some information about it to be ...
... asymmetry. For starters, in an equilibrated world (entropy already maximized, no entropic time asymmetry) there is no information (that's why Maxwell's demon can't function) so there could be no minds whatever. • The low-entropy property of the past is needed to allow some information about it to be ...
