Problem 6: Let's imagine a scenario in which a hypothetical subatomic particle of mass 3.2 × 10-28 kg at rest decays into a daughter hypothetical subatomic particle of mass 1.9 x[10-28 kg while emitting a photon. For simplicity, assume that the speed of the daughter particle is considerably lower than the speed of light. Part (a) Calculate the energy of the photon, in joules. 1.17 * 10-11 Ky = 1.170 x 10-¹¹ X Attempts Remain Part (b) Find the kinetic energy of the daughter particle, in joules. Kd=
Problem 6: Let's imagine a scenario in which a hypothetical subatomic particle of mass 3.2 × 10-28 kg at rest decays into a daughter hypothetical subatomic particle of mass 1.9 x[10-28 kg while emitting a photon. For simplicity, assume that the speed of the daughter particle is considerably lower than the speed of light. Part (a) Calculate the energy of the photon, in joules. 1.17 * 10-11 Ky = 1.170 x 10-¹¹ X Attempts Remain Part (b) Find the kinetic energy of the daughter particle, in joules. Kd=
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Transcribed Image Text:Problem 6: Let's imagine a scenario in which a hypothetical subatomic particle of mass 3.2 × 10-28 kg at rest decays into a daughter hypothetical subatomic
particle of mass 1.9 x[10-28 kg while emitting a photon. For simplicity, assume that the speed of the daughter particle is considerably lower than the speed of light.
Part (a) Calculate the energy of the photon, in joules.
Ky=1.17* 10-11
Ky = 1.170 x 10-¹1
Ka
X Attempts Remain
Part (b) Find the kinetic energy of the daughter particle, in joules.
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