Taking into account the definition of photon and energy of a photon, the energy of a photon is 1.9227×10⁻⁴⁹ J.
Electromagnetic radiation carries energy, which can be absorbed or emitted. To explain the processes of emission and absorption, Plank and Einstein proposed that the energy of radiation is composed of indivisible units (quanta). In each elemental process only a quantum of light can be emitted or absorbed. Each of these quanta was called a "photon".
The exchanges of energy between matter and radiation take place not continuously, but by discrete and indivisible quantities or quanta of energy. The quantum of energy is proportional to the frequency of radiation.
The relationship between the amount of energy (E) transported by the photon and its frequency (f) is determined by the following expression, where the energy of a photon is obtained by multiplying Planck's constant h by the frequency f of electromagnetic radiation:
E=h×f
In this case, you know:
Replacing in the definition of energy of a photon:
E= 2.9×10⁻¹⁶ Hz× 6.63×10⁻³⁴ Js
Solving:
E= 1.9227×10⁻⁴⁹ J
Finally, the energy of a photon is 1.9227×10⁻⁴⁹ J.
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