Soldato
- Joined
- 2 Dec 2006
- Posts
- 8,204
Hey, well i'm cramming for my exam at the moment with a splitting head ache and I can't seem to work this one out even though I should be able to so perhaps someone else might have better luck with it. My lecturer is beyond useless so the parameters aren't even clear but this is what I can make out:
db/dt = r(c-ab)b
r is a function of time, c and a are constants. You'll be looking to split it up to:
db/(c-ab)b = rt + d where d = constant
At least that's what I'm thinking but you need to get to this answer:
b(t)= k(exp(k.a.r.t))/(((B-b(0)/b(0)) + exp(k.a.r.t))
k = c/a , b(0) is achieved from plugging in t=0 to replace d and I have no idea what B even is but it's written in these notes. Unfortunately I had to miss the first 6 weeks of this module so these are not my own notes and the lecturer couldn't give a rats ass about anyone who might not understand something. He hasn't even given us any material on actual exam questions, not even past paper answers.
Best of luck OCUK soldiers
db/dt = r(c-ab)b
r is a function of time, c and a are constants. You'll be looking to split it up to:
db/(c-ab)b = rt + d where d = constant
At least that's what I'm thinking but you need to get to this answer:
b(t)= k(exp(k.a.r.t))/(((B-b(0)/b(0)) + exp(k.a.r.t))
k = c/a , b(0) is achieved from plugging in t=0 to replace d and I have no idea what B even is but it's written in these notes. Unfortunately I had to miss the first 6 weeks of this module so these are not my own notes and the lecturer couldn't give a rats ass about anyone who might not understand something. He hasn't even given us any material on actual exam questions, not even past paper answers.
Best of luck OCUK soldiers
Just interested.
