- #1
Marioqwe
- 68
- 4
Hello, I am reading this article in wikipedia http://en.wikipedia.org/wiki/Attenuation_length about attenuation lengths and there is something I'm hoping someone here can explain to me.
Lets say I have one small solid sphere and one big hollow sphere. And let's say I put the small sphere within the hollow part of the big one.
Now, somehow the small sphere is radioactive and it emits gamma rays. The big sphere is made of a different material (not radioactive). Also, let's say I have solved the equation in the wiki article for the length L = -λln(rand(0,1)). Then, I solve for L using λ for the radioactive material. But what happens if this L happens to be big enough to exit the first material and it goes into the second one. Would I have to calculate L again using λ for the non-radioactive material?
Lets say I have one small solid sphere and one big hollow sphere. And let's say I put the small sphere within the hollow part of the big one.
Now, somehow the small sphere is radioactive and it emits gamma rays. The big sphere is made of a different material (not radioactive). Also, let's say I have solved the equation in the wiki article for the length L = -λln(rand(0,1)). Then, I solve for L using λ for the radioactive material. But what happens if this L happens to be big enough to exit the first material and it goes into the second one. Would I have to calculate L again using λ for the non-radioactive material?