Which statement best describes dose, dose rate, and dose equivalent, and their units?

• A. Dose is energy absorbed per mass (Gray).
• B. Dose rate is energy absorbed per mass (Gray) per unit time; dose equivalent is Sievert and accounts for radiation type via weighting factors.
• C. Dose is energy absorbed per mass; dose rate is energy absorbed per mass per unit time; dose equivalent uses weighting factors and is measured in Sievert.
• D. Dose is energy absorbed per mass; dose rate is energy absorbed per mass per hour; dose equivalent is in Gray.

Answer: (C)

At the heart of this topic is how we quantify radiation interaction with matter in three related ways: the physical dose, the rate at which that dose accumulates, and a biologically adjusted dose that accounts for radiation type.

Dose is the energy deposited in a unit mass, so the standard unit is gray (Gy). Dose rate is that same energy-per-mass amount but spread over time, giving units like Gy per second or Gy per hour. Dose equivalent takes the physical dose and multiplies it by a radiation weighting factor to reflect how different types of radiation affect biology, and its unit is the sievert (Sv). This means equal physical doses can have very different biological impacts depending on the radiation type.

The best description combines all three aspects: dose is energy absorbed per mass; dose rate is energy absorbed per mass per unit time; dose equivalent uses weighting factors and is measured in sieverts. For example, 2 Gy of gamma radiation (w_R ≈ 1) corresponds to about 2 Sv of dose equivalent, whereas the same 2 Gy of alpha radiation (w_R ≈ 20) would correspond to about 40 Sv, illustrating how weighting factors adjust the result to reflect biological risk.