The kinetic energy of a nonrelativistic particle can be written in terms of its momentum as: K = (p 2 ) / (2 m) What is the minimum kinetic energy of a proton confined within a nucleus having a diameter of 1× 10−15 m? Planck’s constant is 6.63 × 10−34 J · s. [Hint: in a case like this, of a confined particle, the uncertainty in momentum is of the same order of magnitude as the momentum itself!] Answer in units of MeV
The kinetic energy of a nonrelativistic particle can be written in terms of its momentum as: K = (p 2
) / (2 m)
What is the minimum kinetic energy of a proton confined within a nucleus having a diameter of 1× 10−15 m? Planck’s constant is 6.63 × 10−34 J · s. [Hint: in a case like this, of a confined particle, the uncertainty in momentum is of the same order of magnitude as the momentum itself!] Answer in units of MeV
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The post The kinetic energy of a nonrelativistic particle can be written in terms of its momentum as: K = (p 2 ) / (2 m) What is the minimum kinetic energy of a proton confined within a nucleus having a diameter of 1× 10−15 m? Planck’s constant is 6.63 × 10−34 J · s. [Hint: in a case like this, of a confined particle, the uncertainty in momentum is of the same order of magnitude as the momentum itself!] Answer in units of MeV appeared first on Superb Professors.
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