Answer:
6.856ml/min/mmHg
Explanation:
We define the coefficient of filteration as Kf, which is a measure between the product of hydraulic conductivity and the surface area of the glomeruar capillatries. We can write it as,
[tex]Kf= \frac{GFR}{ \Omega}[/tex]
Where [tex]\Omega[/tex] is the Net filteration pressure,
Here we know as well that the Net filteration pressure is
[tex]\Omega = \alpha-\beta-\rho+\epsilon[/tex]
Where
[tex]\alpha =[/tex] The hydrostatic pressure of capillaries
[tex]\beta =[/tex] The oncotic pressure in capillaries
[tex]\rho =[/tex]The hydrostatic pressure in bowman capsue
[tex]\epsilon =[/tex]The oncotic pressure of ultrafilterate.
[tex]\Omega=55-28-20+0[/tex]
[tex]\Omega=7[/tex]
[tex]Kf=\frac{120}{7}[/tex]
Kf=17.14 ml/min/mmHg of filteration pressure
Each kidney weighs 125 gm so both weigh 250gms.
Expressing it for per 100 gm of kidney:
[tex]Kf_{100}= (17.14 /250)*100\\Kf_{100}=6.856ml/min/mmHg[/tex]
