Calculate the de Broglie wavelength of a 4.8 MeV particle emitted from an atomic nucleus whose diameter is approximately 1.8 X 10-14 m. 1.063e-34 fm Calculate its minimum kinetic energy according to the uncertainty principle. keV Could this particle exist inside the nucleus? no yes Explain.

Calculate the de Broglie wavelength of a 4.8 MeV particle emitted from an atomic nucleus whose diameter is approximately 1.8 X 10-14 m. 1.063e-34 fm Calculate its minimum kinetic energy according to the uncertainty principle. keV Could this particle exist inside the nucleus? no yes Explain.

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Calculate the de Broglie wavelength of a 4.8 MeV →→
particle emitted from an atomic nucleus whose
diameter is approximately 1.8 X 10-14 m. 1.063e-34
fm Calculate its minimum kinetic energy according to
the uncertainty principle. keV Could this particle exist
inside the nucleus? no yes Explain.

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