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The radioactive isotope radium has a half-life of 1,600 years. The mass of a 100-gram sample of radium will be______ grams after 200 years.
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The radioactive isotope radium has a half-life of 1,600 years. The mass of a 100-gram sample of radium will be______ grams after 200 years.

User Mohikhsan
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1 Answer

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To solve this we are going to use the half life equation
N(t)=N_(0) e^{( (-0.693t)/(t _(1/2) )) }
Where:

N_(0) is the initial sample

t is the time in years

t_(1/2) is the half life of the substance

N(t) is the remainder quantity after
t years

From the problem we know that:

N_(0) =100

t=200

t_(1/2) =1600

Lets replace those values in our equation to find
N(t):

N(200) =100e^{( ((-0.693)(200))/(1600)) }

N(200)=100e^{( (-138.6)/(1600) )}

N(200)=100e^(-0.086625)

N(200)=91.7

We can conclude that after 1600 years of radioactive decay, the mass of the 100-gram sample will be 91.7 grams.

User Santiago
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