Using the nomalization constant A( nd the value of a evaluste the probability to find an escillator in the ground state 2h beyond the classical tuming points This problem cannot be solved in dlosed, analytic form. Develop an approximate, numerical method using a graph calculator, or computer. Assume an electron bound to an atomic-sized region (-0.1 m) with an effective force constant of 1.0 eVm. (To be marked comect, you must be within 25% of the corect answer)
Using the nomalization constant A( nd the value of a evaluste the probability to find an escillator in the ground state 2h beyond the classical tuming points This problem cannot be solved in dlosed, analytic form. Develop an approximate, numerical method using a graph calculator, or computer. Assume an electron bound to an atomic-sized region (-0.1 m) with an effective force constant of 1.0 eVm. (To be marked comect, you must be within 25% of the corect answer)
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Transcribed Image Text:Using the nomalization constant A(
nd the value of a
evaluste the probability to find an escillator in the ground state
2h
beyond the classical tuming points This problem cannot be solved in dlosed, analytic form. Develop an approximate, numerical method using a
graph calculator, or computer. Assume an electron bound to an atomic-sized region (-0.1 m) with an effective force constant of 1.0 eVm.
(To be marked comect, you must be within 25% of the corect answer)
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