Asked by Brad
using d^2(h)/dt^2=−g+k(dh/dt)^2, find an expression for the terminal velocity in terms of k and g? g is the acceleration due to gravity, k is a constant, h(t) is the height of the falling object, dh/dt is its velocity, and d^2(h)/dt^2 is its acceleration.
Answers
Answered by
Steve
Hmmm. velocity is dh/dt. Making that substitution, we have
v' = -g + kv
dv/(kv-g) = dt
1/k log(kv-g) = t+c
log (kv-g) = k(t + c)
kv-g = e^(k(t+c))
v = 1/k (e^(k(t+c) + g)
So, as t->infinity,
v->g/k if k<0
v->infinity if k>0
v' = -g + kv
dv/(kv-g) = dt
1/k log(kv-g) = t+c
log (kv-g) = k(t + c)
kv-g = e^(k(t+c))
v = 1/k (e^(k(t+c) + g)
So, as t->infinity,
v->g/k if k<0
v->infinity if k>0
Answered by
Brad
Could you explain as to how you got that answer?
Answered by
Steve
where do you get lost? It's pretty basic integration and solution of exponentials.
Answered by
Cody
I am stuck, too. We are trying to find an expression for terminal velocity, or where (d^2h/dt^2) = 0, in terms of g and h. I do not think we are allowed to integrate just yet, so how would we do this?
Answered by
Cody
I feel really stupid, because I think the answer may just be the sqrt(g/k).
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