In four years, 40% of a radioactive element decays. Find its half-life. Round to one decimal place.

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catherinsan catherinsan

11-03-2020
Mathematics

contestada

In four years, 40% of a radioactive element decays. Find its half-life. Round to one decimal place.

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dktorsergey dktorsergey · Answer 1 · 2020-03-13T07:04:34+01:00

Answer:

T(Half Life) = 5.42 s

Step-by-step explanation:

Given :

t = 4years

[R]₀(Initial Concentration) = 100(say)

[R](Concentration Left after time t=4yrs) = 100 - 40 = 60

We know that,

k = 2.303 / t (log{[R]₀/[R]})

where k = rate constant

k = 2.303 / t (log[100/60])

k = 2.303 / 4 (log[10] - log[6])

k = 2.303 / 4 (1 - 0.7781)

k = 2.303 / 4 (0.2219)

k = 0.5110 / 4

k = 0.1277 --------(i)

Now, to find its half life,

We know that,

T(Half Life) = 0.693 / k

T = 0.693 / 0.1277

T = 5.42 years

facundo3141592 facundo3141592 · Answer 2 · 2021-11-25T13:29:03+01:00

We will find that the half-life of the given radioactive element is 5.43 years.

Let's see how to solve this:

We define the half-time of a quantity A, which decays exponentially, as the time such that the initial quantity reduces to its half.

Here we know that, after 4 years, 40% of a radioactive element decays.

So if the decay equation is:

D(t) = A*e^{k*t}

Where A is the initial amount, k is a constant and t is the time in years.

We know that after 4 years we will have:

D(4) = 0.6*A = A*e^{k*4}

Now we can solve this for k:

0.6*A = A*e^{k*4}

0.6 = e^{k*4}

Now we can apply the natural logarithm to both sides to get:

ln(0.6) = ln(e^{k*4}) = k*4

ln(0.6)/k = 4 = -0.1277

Then the decay equation is:

D(t) = A*e^{-0.1277*t}

To find the half-time, we must solve:

D(t) = 0.5*A = A*e^{-0.1277*t}

0.5 = e^{-0.1277*t}

ln(0.5) = ln(e^{-0.1277*t}) = -0.1277*t

ln(0.5)/(-0.1277) = t = 5.43

So, concluding, the half-life of the radioactive element is 5.43 years.

If you want to learn more, you can read:

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