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Bcos it contains chemicals tht r positively charged
Its just a simple glass jar with a cap on the top and a nozzle+stopcock on the bottom. Its mainly for extracting things from a polar solution to a nonpolar solution(or the other way around). You pour out the bottom layer through the nozzle, and the top layer you pour out the top, to avoid getting impurities that are in still in the nozzle from just pouring out the bottom layer.
by its spraying nozzle
Nozzle
The Fuel injector nozzle
It is the nozzle you insert into your fuel tank filler neck to pump gasoline into your vehicle.
Not out of a garden hose, but with a nozzle that gives an atomized spray it can.
Pressurize it through a small nozzle. It will freeze at the nozzle.
Preferably remove them and soak them in gasoline for a couple of hours then blow dry with a compressor nozzle
A NOZZLE IS A DUCT WHICH CONVERT HEAT ENERGY INTO KINETIC ENERGY.IT INCREASES VELOCITY OF FLUID PASSING THROUGH IT ,AT THE EXPENCE OF PRESSURE. STEAM EXPANDS IN NOZZLE FOLLOW RANKINE CYCLE.FLOW THROUGH NOZZLE IS ISENTROPIC. mritunjay04@gmail.com
it is sprayed in through the nozzle by machines
Steam turbine nozzle clearance is the total energy content available in steam. This is through a valve.
Inkjet printers using piezoelectric technology. There is a piezo crystal at the back on the cartridge. When the cartridge receives an electrical charge, the crystal vibrates, drawing ink from a reservoir in the cartridge and out through a nozzle onto the page.
As long as the hole through the nozzle was the same size for all three, then, yes.
To increase the exhaust velocity. +++ Pressure, not velocity. A gas flowing through a divergent nozzle gains pressure at the cost of speed.
with pressure , valve and a nozzle , yes water to a tank, pressurize it flow to a vlalve and out through a nozzle will cause forward thrust
Critical pressure in a nozzle is the pressure at which the flow of material through the nozzle reaches its maximum. Beyond which any increase in pressure will not result in an increase in flow. The point at which the velocity of a fluid in the throat of the nozzle reaches the local speed of sound, creating a sonic wave, or a sonic choke.