Compute the momentum and energy of a top quark with a wavelength of 38nm. Energy: 5.216e-14 X Units: O Hertz (Hz) Joules (3) O meters per second (m/s) O Kelvin (K) O parsecs (pc) Momentum: 1.743e-27 Units: O Joules per Kelvin (J/K) O Joules seconds (Js) O meters per second (m/s) kilogram meter per second (kg m/s) X An un-named professor of quantum mechanics has a mass of 77kg. If he is running up the hall late to class at 3 m/s, what is his DeBroglie wavelength in meters? m

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Compute the momentum and energy of a top quark with a wavelength of 38nm.
Energy: 5.216e-14
X
Units:
O Hertz (Hz)
Joules (1)
meters per second (m/s)
O Kelvin (K)
O parsecs (pc)
Momentum: 1.743e-27
Units:
O Joules per Kelvin (J/K)
Joules seconds (J s)
O meters per second (m/s)
kilogram meter per second (kg m/s)
X
An un-named professor of quantum mechanics has a mass of 77kg. If he is running up the hall late to class at 3 m/s, what is his DeBroglie wavelength in meters?
m
Transcribed Image Text:Compute the momentum and energy of a top quark with a wavelength of 38nm. Energy: 5.216e-14 X Units: O Hertz (Hz) Joules (1) meters per second (m/s) O Kelvin (K) O parsecs (pc) Momentum: 1.743e-27 Units: O Joules per Kelvin (J/K) Joules seconds (J s) O meters per second (m/s) kilogram meter per second (kg m/s) X An un-named professor of quantum mechanics has a mass of 77kg. If he is running up the hall late to class at 3 m/s, what is his DeBroglie wavelength in meters? m
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