Suppose a quanton's wavefunction at a given time is y(x) = A[1 + (x/a)2]-¹, where A is an unspecified constant and a = 4.0 nm. According to the table integrals dx √ [1 + (x/a)²]² = 1 + (x/a)² + 2¹an¯^¹ (4) If we were to perform an experiment to locate the quanton at this time, what would the probability of a result between x = 0 and x = 8.0 nm?
Suppose a quanton's wavefunction at a given time is y(x) = A[1 + (x/a)2]-¹, where A is an unspecified constant and a = 4.0 nm. According to the table integrals dx √ [1 + (x/a)²]² = 1 + (x/a)² + 2¹an¯^¹ (4) If we were to perform an experiment to locate the quanton at this time, what would the probability of a result between x = 0 and x = 8.0 nm?
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![. Suppose a quanton's wavefunction at a given time is y(x) = A[1 + (x/a)2]-¹, where A is an
unspecified constant and a = 4.0 nm. According to the table integrals
dx
√
[1 + (x/a)²]² = 1 + (x/a)²+2tan ¹ (2)
If we were to perform an experiment to locate the quanton at this time, what would the
probability of a result between x = 0 and x = 8.0 nm?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd53b5d21-36fa-4ee2-932f-fd40dc0982c5%2Fe1a50324-02c5-4456-9fed-991c4ba554cd%2Fxdztov_processed.jpeg&w=3840&q=75)
Transcribed Image Text:. Suppose a quanton's wavefunction at a given time is y(x) = A[1 + (x/a)2]-¹, where A is an
unspecified constant and a = 4.0 nm. According to the table integrals
dx
√
[1 + (x/a)²]² = 1 + (x/a)²+2tan ¹ (2)
If we were to perform an experiment to locate the quanton at this time, what would the
probability of a result between x = 0 and x = 8.0 nm?
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