Find the half-life of a radioactive element, which decays according to the function A(t)=A_{0} e^{-0.022 t}, where t is the time in years.

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Step:1 ：We are given the decay function of a radioactive element as (A(t)=A_{0} e^{-0.022 t}), where (t) is the time in years and (A_{0}) is the initial amount of the substance.Step:2 ：The half-life of a radioactive element is the time it takes for half of the atoms in a sample to decay. In other words, it&#x27;s the time at which the amount of the substance is half its initial amount. So, we need to find the time (t) when (A(t) = frac{1}{2}A_{0}).Step:3 ：We set up the equation (A_{0} e^{-0.022 t} = frac{1}{2}A_{0}).Step:4 ：Solving this equation gives us the half-life of the radioactive element.Step:5 ：Final Answer: The half-life of the radioactive element is approximately (boxed{31.51}) years.

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Step: 1 ：We are given the decay function of a radioactive element as (A(t)=A_{0} e^{-0.022 t}), where (t) is the time in years and (A_{0}) is the initial amount of the substance.Step: 2 ：The half-life of a radioactive element is the time it takes for half of the atoms in a sample to decay. In other words, it&#x27;s the time at which the amount of the substance is half its initial amount. So, we need to find the time (t) when (A(t) = frac{1}{2}A_{0}).Step: 3 ：We set up the equation (A_{0} e^{-0.022 t} = frac{1}{2}A_{0}).Step: 4 ：Solving this equation gives us the half-life of the radioactive element.Step: 5 ：Final Answer: The half-life of the radioactive element is approximately (boxed{31.51}) years.

Find the half-life of a radioactive element, which decays according to the function $A(t)=A_{0} e^{-0.022 t}$, where $t$ is the time in years.

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