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The Wave Function $\Psi$ (X) of a Particle Confined to 0 $\le$

Question 6

Multiple Choice

The wave function $\Psi$ (x) of a particle confined to 0 $\le$ x $\le$ L is given by $\Psi$ (x) = Ax. $\Psi$ (x) = 0 for x < 0 and x > L.When the wave function is normalised, the probability density at coordinate x has the value:

A) $The wave function \Psi (x) of a particle confined to 0 \le x \le L is given by \Psi (x) = Ax. \Psi (x) = 0 for x < 0 and x > L.When the wave function is normalised, the probability density at coordinate x has the value: A) B) C) D) E)$
B) $The wave function \Psi (x) of a particle confined to 0 \le x \le L is given by \Psi (x) = Ax. \Psi (x) = 0 for x < 0 and x > L.When the wave function is normalised, the probability density at coordinate x has the value: A) B) C) D) E)$
C) $The wave function \Psi (x) of a particle confined to 0 \le x \le L is given by \Psi (x) = Ax. \Psi (x) = 0 for x < 0 and x > L.When the wave function is normalised, the probability density at coordinate x has the value: A) B) C) D) E)$
D) $The wave function \Psi (x) of a particle confined to 0 \le x \le L is given by \Psi (x) = Ax. \Psi (x) = 0 for x < 0 and x > L.When the wave function is normalised, the probability density at coordinate x has the value: A) B) C) D) E)$
E) $The wave function \Psi (x) of a particle confined to 0 \le x \le L is given by \Psi (x) = Ax. \Psi (x) = 0 for x < 0 and x > L.When the wave function is normalised, the probability density at coordinate x has the value: A) B) C) D) E)$

The Wave Function Ψ\PsiΨ (X) of a Particle Confined to 0 ≤\le≤

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The Wave Function $\Psi$ (X) of a Particle Confined to 0 $\le$

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