Hi David,
As I learn more in Hull, I like to keep switching chapters to reiterate some of the points I previously learned to reinforce what I'm currently learning. It takes a lot longer to do but I think is worth it.....
For some reason I keep forgetting the formula for the FRA valuation i.e.
v=(T2R2 - T1R1) / (T2 - T1)
So I thought I'd try to derive it rather than try memorise it (why rely on memory, especially when you have a limited memory space like me, when you can work out the answer...hopefully...).
From my understanding of what the forward rate is actually defined as, I find this easy to remember...
EXP(R1)(T1).EXP(RF)(TF) = EXP(R2)(T2) .......
So the rate we're looking for is RF. TF is the time period that compounds T1 into T2 so sits between R2 and R1 Therefore: TF=T2-T1
So:
EXP(RF)(TF) = EXP(R2)(T2)/EXP(R1)(T1)
now move the denominator up to the numerator.
EXP(RF)(TF) = EXP[(R2)(T2)-(R1)(T1)]......
Therefore taking logs of both sides...
RF (TF) = R2.T2 - R1T1 .....where as previously stated TF = T2-T1
Rf = R2.T2 - R1T1 / (T2-T1)
Doing it this way also explains the terms T1 and T2 - i.e. in terms of years etc.
Hopefully this is able to help someone.
Appologies if its already been covered somewhere else...
Thanks,
Paul
As I learn more in Hull, I like to keep switching chapters to reiterate some of the points I previously learned to reinforce what I'm currently learning. It takes a lot longer to do but I think is worth it.....
For some reason I keep forgetting the formula for the FRA valuation i.e.
v=(T2R2 - T1R1) / (T2 - T1)
So I thought I'd try to derive it rather than try memorise it (why rely on memory, especially when you have a limited memory space like me, when you can work out the answer...hopefully...).
From my understanding of what the forward rate is actually defined as, I find this easy to remember...
EXP(R1)(T1).EXP(RF)(TF) = EXP(R2)(T2) .......
So the rate we're looking for is RF. TF is the time period that compounds T1 into T2 so sits between R2 and R1 Therefore: TF=T2-T1
So:
EXP(RF)(TF) = EXP(R2)(T2)/EXP(R1)(T1)
now move the denominator up to the numerator.
EXP(RF)(TF) = EXP[(R2)(T2)-(R1)(T1)]......
Therefore taking logs of both sides...
RF (TF) = R2.T2 - R1T1 .....where as previously stated TF = T2-T1
Rf = R2.T2 - R1T1 / (T2-T1)
Doing it this way also explains the terms T1 and T2 - i.e. in terms of years etc.
Hopefully this is able to help someone.
Appologies if its already been covered somewhere else...
Thanks,
Paul
