Let t1 and t2 be the times for the two stages. Then t1 = x/v1 and t2 = x/v2 Total distance = x + x = 2x Total time = t1 + t2 = x/v1 + x/v2 = x*(1/v1 + 1/v2) Average velocity = total distance / total time = 2x divided by x/(1/v1 + 1/v2) = 2(1/v1 + 1/v2) which is the Harmonic mean of v1 and v2.
5 * 10**-12 mol 32 * 10**-9 mol Concentration (M) * Volume (L) = mols C1*V1=C2*V2 (5*10**-12)*V1=(32*10**-9)*V2 (5*10**-12)*V1/(32*10**-9)=V2 (5*10**-3)*V1/32=V2 The volume of the 5 picomolar solution that you wish take = V1 The volume of the 32 nanomolar solution that you need to make V1 at 5pM concentration = V2 Take V2, and place into graduated cylinder and fill to V1.
(v1/t1) = (v2/t2)
hop count metric
use this V1*M1=V2*M2
online?!
where can i get a v1 tamagotchi
[ ((v2 - v1) / |v1|) * 100 ]
v1 = initial velocity v2 = final velocity
Relates that if held under constant pressure the ratio of Vol/Temp remains constant. i.e, V1 / T1 = V2 / T2 (where T is in Kelvin)
( | V1 - V2 | / ((V1 + V2)/2) ) * 100
v1 is design speed and v2 rotation speed
By N1 V1 = N2 N2 1000 V1 = 100 * 100 V1= 100 * 100 / 1000 V1= 10 ml taken 10 ml from 1000 ppm and completed in 200 ml.
I don't know what you are asking, but the V1 and V2 were German rocket-bombs used in World War 2.CorrectionThe V1 was not a rocket.
the V1 flying bomb was filled with (along with the workings) a 1,870 lb warhead, the V1 being used by the Germans to bomb Britain in world war 2.
Ebay.
It did have it.