Determining the precise mass of the deuteron A proton (1.6726 10-27 kg) and a ne

Question

Determining the precise mass of the deuteron

A proton (1.6726 10-27 kg) and a neutron (1.6749 10-27 kg) at rest combine to form a deuteron, the nucleus of deuterium or "heavy hydrogen." In this process, a gamma ray (high-energy photon) is emitted, and its energy is measured to be 2.2 MeV (2.2 106 eV).

(a) Keeping all five significant figures, what is the mass of the deuteron? Assume that you can neglect the small kinetic energy of the recoiling deuteron.

? kg

(b) Momentum must be conserved, so the deuteron must recoil with momentum equal and opposite to the momentum of the gamma ray. Calculate approximately the kinetic energy of the recoiling deuteron and show that it is indeed small compared to the energy of the gamma ray.

? eV

Explanation / Answer

c^2 (1.6726

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