A sample of phosphorus-32 has a half-life of 14.28 days. If 55 g of this radioisotope remain (1 point) unchanged after approximately 57 days, what was the mass of the original sample?

For this problem, we use the formula for radioactive decay which is expressed as follows:

An = Aoe^-kt

where An is the amount left after time t, Ao is the initial amount and k is a constant.

We calculate as follows:

An = Aoe^-kt
0.5 = e^-k(14.28)
k = 0.05

An = Aoe^-kt
An = 55e^-0.55(57)
An = 1.33x10^-12 g

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akivieobukomena akivieobukomena · Answer 2 · 2019-12-30T12:59:48+01:00

akivieobukomena akivieobukomena

30-12-2019

Answer:

875 gram

Explanation:

Let h be the half life

Let t be the time

Radioactive decay formula (A)

A = Ao * 2^(-t/h)

A = amount after time t

Ao = initial amount (t = 0)

A = 55

h = 14.28

t = 57

55 = Ao * 2^(-57/14.28)

55 = Ao * 2^(-3.9916)

Ao = 55 / 0.062865

Ao = 874.889

Ao = 875 grams

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A sample of phosphorus-32 has a half-life of 14.28 days. If 55 g of this radioisotope remain (1 point) unchanged after approximately 57 days, what was the mass of the original sample? ￼￼

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A sample of phosphorus-32 has a half-life of 14.28 days. If 55 g of this radioisotope remain (1 point) unchanged after approximately 57 days, what was the mass of the original sample?