Q - PIMS
... Ans: One mole of an ideal gas at S.T.P occupies a volume of 22.414 dm3. Sizes and masses of molecules of different gases do not affect the volume. Normally it is known that in the gaseous state, the distance between the molecules is 300 times greater than their diameter. Therefore two grams of H2, 1 ...
... Ans: One mole of an ideal gas at S.T.P occupies a volume of 22.414 dm3. Sizes and masses of molecules of different gases do not affect the volume. Normally it is known that in the gaseous state, the distance between the molecules is 300 times greater than their diameter. Therefore two grams of H2, 1 ...
Vibrationally enhanced tunneling as a mechanism for enzymatic hydrogen transfer
... much smaller than all characteristic classical energies in the problem. In the BSAO hydrogen transfer, the relevant vibrational quantum is governed by the C-H stretching frequency, /2irc 3,000 cm-' so that hw 36 kJ/mol. The observed activation energy, which in the classical scenario sets an upper bo ...
... much smaller than all characteristic classical energies in the problem. In the BSAO hydrogen transfer, the relevant vibrational quantum is governed by the C-H stretching frequency, /2irc 3,000 cm-' so that hw 36 kJ/mol. The observed activation energy, which in the classical scenario sets an upper bo ...
Lecture Notes 01 (continued): Transport of EM power down a long wire carrying a steady/DC current
... relative speeds of the electric charge carriers involved are all “glacial”, i.e. v c and thus we do not need to explicitly “haul in” all of the mathematical formalism/mathematic rigor of (special) relativity in order to understand the physics {we are consciously avoiding doing this, especially sin ...
... relative speeds of the electric charge carriers involved are all “glacial”, i.e. v c and thus we do not need to explicitly “haul in” all of the mathematical formalism/mathematic rigor of (special) relativity in order to understand the physics {we are consciously avoiding doing this, especially sin ...
chapter 2 photons and atoms
... electrodynamics (QED). • Quantum electrodynamics is more general than classical electrodynamics and it is today accepted as a theory that is useful for explaining virtually all known optical phenomena. For optical phenomena, this theory is also referred to as quantum optics. • it is possible to deri ...
... electrodynamics (QED). • Quantum electrodynamics is more general than classical electrodynamics and it is today accepted as a theory that is useful for explaining virtually all known optical phenomena. For optical phenomena, this theory is also referred to as quantum optics. • it is possible to deri ...
Specific rate constants k(E,J) for the dissociation of NO 2 . I. Time
... or time-resolved experiments with well-characterized rovibrational ensembles distributions. Time-resolved doubleresonance ps pump-and-probe spectroscopy was recently applied by Wittig and co-workers.22,23 A series of rotationally resolved decomposition experiments with time-resolved detection of the ...
... or time-resolved experiments with well-characterized rovibrational ensembles distributions. Time-resolved doubleresonance ps pump-and-probe spectroscopy was recently applied by Wittig and co-workers.22,23 A series of rotationally resolved decomposition experiments with time-resolved detection of the ...
Optics and Quantum Electronics - Research Laboratory of Electronics
... Highly efficient Cherenkov radiation in photonic crystal fibers Fiber-hosted Cherenkov Radiation (CR), also known as dispersive wave generation or nonsolitonic radiation, originates from a soliton perturbed by higher-order dispersion. This intriguing phenomenon has emerged as a wavelength conversion ...
... Highly efficient Cherenkov radiation in photonic crystal fibers Fiber-hosted Cherenkov Radiation (CR), also known as dispersive wave generation or nonsolitonic radiation, originates from a soliton perturbed by higher-order dispersion. This intriguing phenomenon has emerged as a wavelength conversion ...
On the combination of a linear field free trap with a time-of
... association.12 Other studies include the growth of weakly ...
... association.12 Other studies include the growth of weakly ...
104,18415 (2007)
... excitation gap (3, 4). In the ground state sector, one thus has a topologically protected two-state system that, on multiply connected surfaces, can be duplicated to produce an array of qubits and used for topological quantum memory (3, 4). Quantum computation can then be accomplished by devising th ...
... excitation gap (3, 4). In the ground state sector, one thus has a topologically protected two-state system that, on multiply connected surfaces, can be duplicated to produce an array of qubits and used for topological quantum memory (3, 4). Quantum computation can then be accomplished by devising th ...
Ionization
Ionization is the process by which an atom or a molecule acquires a negative or positive charge by gaining or losing electrons to form ions, often in conjunction with other chemical changes. Ionization can result from the loss of an electron after collisions with sub atomic particles, collisions with other atoms, molecules and ions, or through the interaction with light. Heterolytic bond cleavage and heterolytic substitution reactions can result in the formation of ion pairs. Ionization can occur through radioactive decay by the internal conversion process, in which an excited nucleus transfers its energy to one of the inner-shell electrons causing it to be ejected.