Assume that an Argon atom moves in one-dimension (along X-axis) inside a box of length Im and now we are going to model this in a particle in a box set up. For what value of quantum number the quantum mechanical energy of Argon atom is equal to the average translational kinetic energy of Argon atom at 1000 K. Atomic weight of Argon = 0.018 kg/mol. Based on these calculations, how important are quantum effects in the motion of Argon at 1000K. (col)
Assume that an Argon atom moves in one-dimension (along X-axis) inside a box of length Im and now we are going to model this in a particle in a box set up. For what value of quantum number the quantum mechanical energy of Argon atom is equal to the average translational kinetic energy of Argon atom at 1000 K. Atomic weight of Argon = 0.018 kg/mol. Based on these calculations, how important are quantum effects in the motion of Argon at 1000K. (col)
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Transcribed Image Text:gauro Number = 0.025 x 10 mole
Mass of electron=9.1X1O
Bolzmann constant = 1.38 X 10
Assume that an Argon atom moves in one-dimension (along X-axis) inside a box of length Im and
now we are going to model this in a particle in a box set up. For what value of quantum number the
quantum mechanical energy of Argon atom is equal to the average translational kinetic energy of
Argon atom at 1000 K. Atomic weight of Argon = 0.018 kg/mol. Based on these calculations, how
important are quantum effects in the motion of Argon at 1000K. (CD1)
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