If the radon concentration is 75 pCi/L, what would be the equilibrium ratio if the decay-product concentration is 0.3 WL?

To determine the equilibrium ratio between radon concentration and decay-products, we can use the formula:

[ \text{Equilibrium Ratio} = \frac{\text{Decay Product Concentration in WL}}{\text{Radon Concentration in pCi/L}} \times 100 ]

In this scenario, the radon concentration is 75 pCi/L, and the decay-product concentration is 0.3 WL.

Using the values given:

[ \text{Equilibrium Ratio} = \frac{0.3}{75} \times 100 ]

Calculating this gives:

[ \frac{0.3}{75} = 0.004 ]

[ 0.004 \times 100 = 0.4 ]

Thus, the equilibrium ratio is 0.4. This indicates the relationship between the decay products measured in working levels (WL) and the radon levels measured in picocuries per liter (pCi/L), providing insights into how much of the decay product concentration can be expected based on a specific radon concentration.

This value serves as a benchmark for assessing radon exposure and potential health risks, as the equilibrium ratio is a key component in understanding the dynamics of radon decay