- #1
AStaunton
- 105
- 1
Hi there
problem is:
given the following nuclear reaction sequence, determine X and Y:
[tex]_{9}^{15}N+_{1}^{1}H\rightarrow_{8}^{16}O+\gamma[/tex]
[tex]_{8}^{16}O+_{1}^{1}H\rightarrow_{9}^{17}F+X[/tex]
[tex]_{9}^{17}F\rightarrow_{8}^{17}O+Y+\nu_{e}[/tex]
My Attempted answer is:
As far as I can see, Y must be a [tex]e^{+}[/tex] in order to balance with the [tex]\nu_{e}[/tex] in the equation. But I am in doubt about this as the above way I am think is beta+ emission, however I read that the way of decay of fluorine-17 is electron capture so I don't know how to reconcile this.
Regarding what X is, I am not sure...I do not think it can be a [tex]\gamma[/tex] as binding energy per nucleon of oxygen 16 is greater than that of fluorine 17..I don't see how it can be a lepton as the lepton number seems to be balanced already...
Any feedback on my queries for X and Y is appreciated
problem is:
given the following nuclear reaction sequence, determine X and Y:
[tex]_{9}^{15}N+_{1}^{1}H\rightarrow_{8}^{16}O+\gamma[/tex]
[tex]_{8}^{16}O+_{1}^{1}H\rightarrow_{9}^{17}F+X[/tex]
[tex]_{9}^{17}F\rightarrow_{8}^{17}O+Y+\nu_{e}[/tex]
My Attempted answer is:
As far as I can see, Y must be a [tex]e^{+}[/tex] in order to balance with the [tex]\nu_{e}[/tex] in the equation. But I am in doubt about this as the above way I am think is beta+ emission, however I read that the way of decay of fluorine-17 is electron capture so I don't know how to reconcile this.
Regarding what X is, I am not sure...I do not think it can be a [tex]\gamma[/tex] as binding energy per nucleon of oxygen 16 is greater than that of fluorine 17..I don't see how it can be a lepton as the lepton number seems to be balanced already...
Any feedback on my queries for X and Y is appreciated