Mechanical analogy for the wave-particle: helix on a vortex filament
... A helical wave on a vortex filament in the ideal fluid is considered. It is shown to obey the linear Schroedinger equation. Other properties of a vortex filament also reproduce the specific features of a quantum object. This work is a constituent of the whole project aimed at constructing a regular ...
... A helical wave on a vortex filament in the ideal fluid is considered. It is shown to obey the linear Schroedinger equation. Other properties of a vortex filament also reproduce the specific features of a quantum object. This work is a constituent of the whole project aimed at constructing a regular ...
Test Code: CS (Short answer type) 2011 M.Tech. in Computer Science
... A8. Find the total number of English words (all of which may not have proper English meaning) of length 10, where all ten letters in a word are not distinct. an A9. Let a0 + a21 + a32 + . . . + n+1 = 0, where ai ’s are some real constants. Prove that the ...
... A8. Find the total number of English words (all of which may not have proper English meaning) of length 10, where all ten letters in a word are not distinct. an A9. Let a0 + a21 + a32 + . . . + n+1 = 0, where ai ’s are some real constants. Prove that the ...
The Kinetic Theory of Gases - Department of Applied Physics
... The Kinetic Theory of Gases Chapter Outline 21.1 Molecular Model of an Ideal Gas 21.2 Molar Specific Heat of an Ideal Gas ...
... The Kinetic Theory of Gases Chapter Outline 21.1 Molecular Model of an Ideal Gas 21.2 Molar Specific Heat of an Ideal Gas ...
Physics 2 - The College Board
... 2015 SCORING GUIDELINES Question 1 (continued) Distribution of points ...
... 2015 SCORING GUIDELINES Question 1 (continued) Distribution of points ...
Physcal Chemistry ERT 108 semester II 2010/2011
... To work out the Relative Molecular Mass, simply add up the Relative Atomic Masses of each atom in the molecule: A relative molecular mass can be calculated easily by adding together the relative atomic masses of the constituent atoms. For example, Nitrate, NO3, has a Mr of 62 g/mol (Try it!). ...
... To work out the Relative Molecular Mass, simply add up the Relative Atomic Masses of each atom in the molecule: A relative molecular mass can be calculated easily by adding together the relative atomic masses of the constituent atoms. For example, Nitrate, NO3, has a Mr of 62 g/mol (Try it!). ...
