This is for my biothermodynamics class:
MOLECULAR WEIGHT DISTRIBUTION IN POLYMERS:
While the fraction of polymer chains having length k is P(k) = n/?_(k=1)^?n[sub:23j6xngx]k[/sub:23j6xngx]), the fraction of chains having molecular weight proportional to k is w=k*n/(?_(k=1)^?k*n[sub:23j6xngx]k[/sub:23j6xngx]).
Q: a. Show that w = k(1-p)*n
b. Compute the average molecular weight, <k> = ?_(k=1)^?k*w[sub:23j6xngx]k[/sub:23j6xngx]
A: a. Well... I can't figure out the answer yet despite the amount of time I have spent trying to figure this out. It is given in the book that n[sub:23j6xngx]k[/sub:23j6xngx]=(1-p)p^(k-1). I have attempted to plug this into the expression for w[sub:23j6xngx]k[/sub:23j6xngx] and manipulate the sum so as to solve for a closed form that would hopefully take a form that would simplify to the expression required to be proven. My attempts have failed thus far and I would appreciate any help I can get. I could easily simplify to a closed form if n[sub:23j6xngx]k[/sub:23j6xngx] were a steady constant, however the subscrip k tells me that although it is just a number, it will change with every value of k.
b. I know that the average can be computed like so: (?_(k=1)^?k*P(k)), but I might need a little help simplifying this expression to a closed expression as opposed to a summation.
Any help is greatly appreciate, thanks so much!!
MOLECULAR WEIGHT DISTRIBUTION IN POLYMERS:
While the fraction of polymer chains having length k is P(k) = n/?_(k=1)^?n[sub:23j6xngx]k[/sub:23j6xngx]), the fraction of chains having molecular weight proportional to k is w=k*n/(?_(k=1)^?k*n[sub:23j6xngx]k[/sub:23j6xngx]).
Q: a. Show that w = k(1-p)*n
b. Compute the average molecular weight, <k> = ?_(k=1)^?k*w[sub:23j6xngx]k[/sub:23j6xngx]
A: a. Well... I can't figure out the answer yet despite the amount of time I have spent trying to figure this out. It is given in the book that n[sub:23j6xngx]k[/sub:23j6xngx]=(1-p)p^(k-1). I have attempted to plug this into the expression for w[sub:23j6xngx]k[/sub:23j6xngx] and manipulate the sum so as to solve for a closed form that would hopefully take a form that would simplify to the expression required to be proven. My attempts have failed thus far and I would appreciate any help I can get. I could easily simplify to a closed form if n[sub:23j6xngx]k[/sub:23j6xngx] were a steady constant, however the subscrip k tells me that although it is just a number, it will change with every value of k.
b. I know that the average can be computed like so: (?_(k=1)^?k*P(k)), but I might need a little help simplifying this expression to a closed expression as opposed to a summation.
Any help is greatly appreciate, thanks so much!!