In the theory of relativity, the energy of a particle is E = /mở c* + h*c*/X² where mo is the rest mass of the particle, A is its wave length, and h is Planck's constant. Sketch the graph of E as a function of A. What does the graph say about the energy?

In the theory of relativity, the energy of a particle is E = /mở c* + hc/X² where mo is the rest mass of the particle, A is its wave length, and h is Planck's constant. Sketch the graph of E as a function of A. What does the graph say about the energy?

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Question

In the theory of relativity, the energy of a particle is
E = /mở c* + h*c*/X²
where mo is the rest mass of the particle, A is its wave
length, and h is Planck's constant. Sketch the graph of E as
a function of A. What does the graph say about the energy?

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