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- //Liquid Hydrogen new G4Material("Hydrogen", z=1., a=1.01*g/mole, density = 0.07*g/cm3,1 KB (166 words) - 17:08, 29 September 2011
- G4Element* H = new G4Element("Hydrogen","H",z=1.,a=1.01*g/mole);485 bytes (76 words) - 23:47, 29 March 2016
- For hydrogen <math>\sigma_{nucleus} = 2.688*10^{-3} barns</math> or <math>2.688*10^{-27} For hydrogen <math>\sigma_{elec} = 1.716*10^{-3} barns</math> or <math>1.716*10^{-27}cm^3 KB (467 words) - 18:11, 5 February 2009
- ...d longitudinally polarized electron beam to probe longitudinally polarized Hydrogen (15NH3) and Deuterium (15ND3) targets for an investigation of the quark's c1 KB (169 words) - 06:47, 10 December 2012
- ...ing a longitudinally polarized electron beam on a longitudinally polarized Hydrogen (<math>^{15}</math>NH<math>_{3}</math>) and Deuterium (<math>^{15}</math>ND ...combined uncertainties. The SIDIS asymmetries for longitudinally polarized Hydrogen (<math>^{15}</math>NH<math>_{3}</math>) and Deuterium (<math>^{15}</math>ND5 KB (711 words) - 06:48, 10 December 2012
- ...0.03 (GeV/c)2 employing 180 A of 85% polarized beam on a 35 cm long liquid Hydrogen target will begin in 20102 KB (333 words) - 20:25, 28 November 2009
- Neutron energy deposition from collisions with both hydrogen and carbon are converted to electron equivalent light output (MeVee). All n2 KB (318 words) - 21:35, 17 February 2017
- * Equation for cross section of hydrogen according to5 KB (343 words) - 16:58, 13 May 2008
- Neutron energy deposition from collisions with both hydrogen and carbon are converted to electron equivalent light output (MeVee). All n2 KB (365 words) - 21:58, 22 February 2017
- Balmer found that the specific wavelengths oberved using Hydrogen obeyed the relation4 KB (571 words) - 15:59, 30 September 2009
- ...d at improving the vacuum by reducing a potential source of contamination, hydrogen ions. There is every indication that vacuum is a key limiting factor in pr4 KB (604 words) - 02:08, 31 December 2010
- ...BET, porosity distribution, source material), and at partial pressures of hydrogen (tritium and entrained water) over a range of high temperatures (500-1600C)5 KB (617 words) - 19:09, 7 November 2016
- A high power liquid hydrogen target for parity violation experiments, E. J. Beise, D. H. Beck,E. Candell4 KB (574 words) - 11:43, 20 September 2008
- ...e silicon silicon wafer forming and a hydrogen chloride byproduct. If the hydrogen chloride is to dense you can get some etching. The growth rate ( 2 microns19 KB (3,452 words) - 16:41, 2 April 2015
- G4Element* H = new G4Element("Hydrogen" , "H", z=1., a= 1.008*g/mole);7 KB (1,005 words) - 18:37, 17 April 2013
- ...to determine the Range of the particle chosen in Homework 3 through liquid hydrogen as a function of at least three of the Energies used in Homework 3. Use a Liquid Hydrogen target10 KB (1,494 words) - 21:41, 18 January 2019
- ...ctron bound to the detector. The binding energy of an electron bound to a hydrogen atom is 13.6 eV5 KB (824 words) - 19:08, 1 January 2019
- ==== The Coulomb Potential for the Hydrogen like atom==== As you may have noticed in the quantum solution to the coulomb potential (Hydrogen Atom) problem above, the quantum number <math>\ell</math> plays a big role40 KB (6,862 words) - 03:20, 8 April 2009
- //Liquid Hydrogen G4Material* LH2 = new G4Material("Hydrogen", z=2., a=2.02*g/mole, density=0.07*g/cm3, kStateGas,3*kelvin,1.7e5*pascal10 KB (1,318 words) - 03:10, 4 April 2018
- //Liquid Hydrogen G4Material* LH2 = new G4Material("Hydrogen", z=2., a=2.02*g/mole, density=0.07*g/cm3, kStateGas,3*kelvin,1.7e5*pascal11 KB (1,347 words) - 03:08, 4 April 2018