Problem 3.14 Prove the famous "(your name) uncertainty principle," relating the uncertainty in position (A = x) to the uncertainty in energy (B = p²/2m + V): ħ ²2m² -|(p)|. For stationary states this doesn't tell you much- why not? OxOH Z
Problem 3.14 Prove the famous "(your name) uncertainty principle," relating the uncertainty in position (A = x) to the uncertainty in energy (B = p²/2m + V): ħ ²2m² -|(p)|. For stationary states this doesn't tell you much- why not? OxOH Z
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![*Problem 3.14 Prove the famous "(your name) uncertainty principle," relating the
uncertainty in position (A = x) to the uncertainty in energy (B = p²/2m + V):
ħ
σχ6Η Σ -|(p)\.
2m
For stationary states this doesn't tell you much-why not?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fcaf13337-fb8a-4943-9515-20caf500f130%2F370bcbd8-a7a0-48dd-9470-2b857d2da106%2Fcjk69u_processed.png&w=3840&q=75)
Transcribed Image Text:*Problem 3.14 Prove the famous "(your name) uncertainty principle," relating the
uncertainty in position (A = x) to the uncertainty in energy (B = p²/2m + V):
ħ
σχ6Η Σ -|(p)\.
2m
For stationary states this doesn't tell you much-why not?
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