Consider the collision: N2(i) + Ar → N2(j) + Ar where i and j are the vibrational quantum numbers of N2. Assume that N2 is a harmonic oscillator with frequency 7.08 × 1013 s−1. If the initial velocity of N2 has a magnitude of 1.4 × 103 m s−1 and the initial velocity of Ar has a magnitude of 2.0 × 103 m s−1, what is the maximum value of j if: (a) i = 0 (b) i = 2
Consider the collision: N2(i) + Ar → N2(j) + Ar where i and j are the vibrational quantum numbers of N2. Assume that N2 is a harmonic oscillator with frequency 7.08 × 1013 s−1. If the initial velocity of N2 has a magnitude of 1.4 × 103 m s−1 and the initial velocity of Ar has a magnitude of 2.0 × 103 m s−1, what is the maximum value of j if: (a) i = 0 (b) i = 2
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Consider the collision: N2(i) + Ar → N2(j) + Ar where i and j are the vibrational quantum numbers of N2. Assume that N2 is a harmonic oscillator with frequency 7.08 × 1013 s−1. If the initial velocity of N2 has a magnitude of 1.4 × 103 m s−1 and the initial velocity of Ar has a magnitude of 2.0 × 103 m s−1, what is the maximum value of j if: (a) i = 0 (b) i = 2
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