Solving Radioactive Decay: Homework Equations and Attempt at Solution

AI Thread Summary
The discussion centers on solving a radioactive decay problem using the equation N=N0e-λt. The user successfully completes part (a) but struggles with part (b), seeking guidance on how to express the activity of a sample over time based on its half-life and initial activity. Participants clarify that the decay rate, measured in Becquerels (Bq), is similar to the original equation but focuses on activity rather than remaining material. They discuss the initial activity value (A0) and the impact of uncertainties on calculating a current activity value (A) that reflects a maximum deviation from A0. The conversation emphasizes that the current activity must be less than the initial value due to the nature of radioactive decay.
elemis
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Homework Statement



radioactive.png


Homework Equations



N=N0e-λt

The Attempt at a Solution



I can do all of part (a) but I'm stuck on part (b).

I don't even know where to begin. I just have no idea what to make of this question.

Could someone prod me in the right direction ?
 
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What's the expression for the activity of a sample over time, given its half-life and initial activity value?
 
gneill said:
What's the expression for the activity of a sample over time, given its half-life and initial activity value?

I've written down that expression in the original post.
 
elemis said:
I've written down that expression in the original post.

Not quite, you've written down the amount of material remaining as a function of time. The rate of decay is measured in Becquerels (Bq) and represents the instantaneous number of decays per second. It has a similar form to the equation you wrote...
 
gneill said:
Not quite, you've written down the amount of material remaining as a function of time. The rate of decay is measured in Becquerels (Bq) and represents the instantaneous number of decays per second. It has a similar form to the equation you wrote...

Its basically the same equation except N is subbed for A and N0 for A0
 
elemis said:
Its basically the same equation except N is subbed for A and N0 for A0
Correct. And you're given a value for Ao are you not?

What would constitute a "current" value for A that would represent a maximum deviation of 10% from Ao? Keep in mind that Ao has an initial uncertainty of 2%.
 
gneill said:
Correct. And you're given a value for Ao are you not?

What would constitute a "current" value for A that would represent a maximum deviation of 10% from Ao? Keep in mind that Ao has an initial uncertainty of 2%.

So A0 = 3.5*105

3.78*105 ? A 2% uncertainty is built into A0 so an 8% error must originate from the A ?

So 0.08*3.5*10^5 + 3.5*10^5 = above answer ?
 
You're thinking along the right lines... but keep in mind that the Activity must decrease over time. So the new value of A should be smaller than Ao.
 

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