Exponentials & Logarithmshard
0:00.0

A population of particles decays such that the quantity N(t)N(t) at time tt follows the rule N(t)=N0ektN(t) = N_0 \cdot e^{-kt}. If the decay constant kk is 0.20.2, how many times longer does it take for the quantity to reach 10%10\% of its original value compared to the time it takes to reach 50%50\% of its original value?