Beta -decay converting u to MeV

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The discussion centers on calculating the energy released during the beta decay of iodine-131 to xenon-131. The user initially calculated the mass difference (Δm) as 0.001038 u and attempted to use E=Δm c² for conversion, but later realized that the c² term cancels out. The correct approach involves multiplying Δm by the conversion factor of 931.5 MeV/u, resulting in an energy release of approximately 0.967 MeV. Participants emphasized the importance of unit consistency throughout calculations to avoid errors. This clarification helped the user understand the conversion process more effectively.
MrsChaos
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hi
i'm new so i hope i am writing this in the correct part of the forums

this is the question i have been given:

---
What is the energy Q released when ^{131}_{\ 53}{\rm I}decays and ^{131}_{\ 54}{\rm Xe} is formed? The atomic mass of ^{131}_{\ 53}{\rm I} is 130.906118 \rm u and the atomic mass of ^{131}_{\ 54}{\rm Xe} is 130.90508 \rm u.
Express your answer in megaelectron volts to three significant figures.
Q =

---
i have worked out that Delta m = 0.001038u
so assumed i could use E= {\Delta m} c^2
i am using 3.00*10^8 as c (if this is wrong please tell me)
and received the answer 9.342*10^13

could you please help me to convert this to MeV and let me know why i keep on getting this
question wrong :(
 
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lol ok i worked it out now
i didn't need to do the c^2 part because it canceled out
so i just needed to go
0.001038 x 931.5
which gave me the right answer of
0.967MeV
 
Don't worry I've made little mistakes like this too! :wink:

Just to advise that if you remember to check the units along the way, this can help to make sure you've done things like this right. But you'll probably always remember this now!

So you had \Delta m = 0.001038u which is obviously units of u.

Then the conversion is 1u = 931.494MeV

Which means indeed you can just multiply the two and the units work out fine. :smile:
 

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