Figure shows a crude type of atomizer. is compressed, air flows swiftly through tube `BC` causing a reduced pressure in the particles of the vertical to Liquid rises in the tube, enters `BC` and is sprayed out. if the pressure in the bulb is `P_(a) + P`, where `P` is the gauge pressure and `P_(a)` is the atmospheric pressure, `v` is the speed of air in `BC`, find how large would `v` need to be to cause the liquid to rise to `BC`. Density of air `= 1.3 kg//m^(3)`.

The pressure of confined air is p. If the atmospheric pressure is P, then :-

The figure shows a crude type of perfume atomizer. When bulb at A is compressed, air flows swifty through the tiny BC with uniform speed v , there by causing a reduced pressure at the position of verticall tube DE . The liquid of density 500kg//m^(3) , then rises in the tube, enters tube BC and sprayed out. When bulb is in natural position the air in the bulb and tube are at atmospheric pressure P_(0=15)^(5)N//m^(2) . When bulb A is compressed, it creates an exces pressure Deltap=0.001P_(0) inside the bulb A . Density of air is 1.3 kg//m^(3) . If the magnitude of minimum value of speed v required to cause the liquid to rise to tube BC is 5km//s . Find the value of k . ( g=10m//s^(2) )

In the figure shown the velocity and pressure of the liquid at the cross section (2) are given by (If P_(0) is the atmospheric pressure).

Assertion : In the given figure shown, p_(1)=p_(2) . Reason : Pressure at 1 is less than the atmospheric pressure.

Compare the pressure at the point P in the three tubes shown in the figure .

Suppose the pressure at the surface of mercury in as barometer tube is P_1 and the pressure at the surface of mercury in the cup is P_2 .

For the L -shaped vessel shown in the figure, determine the value of acceleration a so that pressure at point A becomes equal to p_(0)/2 ? ( p_(0) is the atmospheric pressure)

The pressure at the bottom of an open tank of water is 3p where p is the atmospheric pressure. If the water is drawn out till the level of water remains one fifth, the pressure at the bottom of the tank will now be

The figure shows a model of perfume atomizer . When the bulb A is compressed , air ("density "rho_(a)) flows through the vertical tube and emerges through the end . If excess pressure applied to the bulb ins progress be Delta p then the minimu speed of air in the tube to lift perfume is :

A capillary tube is dipped in water as shown in the figure. If P_0 is the atmospheric pressure, P_A and P_B are pressure at A and B respectively then