Capillary tubes of length `l` and `2l` are connected in series, their radii are r and `2r` respectively. If stream line flow is maintained and pressure difference across first and second capillary tubes are `P_(1)` and `P_(2)` respectively then find the ratio `(P_(1))/(P_(2))`.

There capillaries of length l, 2l and l//2 are connected in series. Their radii are r, r//2 and r//3 respectively. If stream line flow is maintained and the pressure difference across the first capillary tube is P_(1) , find the pressure difference across (i) the second and (ii) the thired capillary tube.

L,(L)/(2) and (L)/(3) are connected in series. Their radii are r, (r)/(2) and (r)/(3) respectively. Then, if stream-line flow is to be maintained and the pressure across the first capillary is P, then:

Three capillaries of length L, (L)/(2) and (L)/(3) are connected in a series. Their radii are r, (r)/(2) and (r)/(3) respectively. If a streamlined flow is to be maintained and pressure difference across the first capillary is rho , then the pressure difference across the second capillary will be

In a resonance tube apparatus, the first and second resonance lengths are l_(1) and l_(2) respectively. If v is the velocity of wave. Then

Two tubes of radii r_(1) andr _(2) and lengths l_(1) and l_(2) respectively, are connected in series and a liquid flows through each of them in streamline conditions. P_(1) and P_(2) are pressure differences across the two tubes. If P_(2) is 4P_(1) and l_(2) is (l_(1))/(4) then the radius r, will be equal to:

Two capillary tubes of lengths in the ratio 2 : 1 and radii in the ratio 1 : 2 are connected in series. Assume the flow of the liquid through the tube is steady. Then, the ratio of pressure difference across the tubes is

A liquid flows through two capillary tubes A and B connected in series. The length and radius of B are twice that of A. What is the ratio of the pressure difference across A to that across B ?

Three capillaries of lengths l_(1),l_(2) and l_(3) and radii r_(1),r_(2) and r_(3) respectively are joined in series. If p is pressure difference across the combination of capallaries, what will be the volume of liquid flowing per second?

The lengths and radii of two wires of same material are respectively L, 2L, and 2R, R. Equal weights are applied on then. If the elongations produced in them are l_(1) and l_(2) respectively then their ratio will be

A capillary tube is dipped in a liquid. Let pressure at point A,B and C be p_(A)p_(B) and p_(C) respectively, then