Hydraulics and pneumatics
Hydraulics is the science of forces created by moving liquids or liquids
at rest. Technically hydrostatics is the term used for the science of
liquids at rest, and hydrodynamics for liquids in motion. The prefix
"hydra" implies that the liquid used is water, but oils also
play an important role in hydraulics. Hydraulic systems can involve
enormous forces, caused by the fact that liquids cannot be compressed,
and have many applications.
Hydraulics is a most efficient way of making the most of a limited
amount of force. When a force is exerted on a solid object, the object
will transmit that force in the same direction, for example a billiard
cue or a cricket bat hitting a ball. With liquids the force is exerted
equally in all directions. This means that if a mass of 1kg was placed
on a piston with an area of 1cm2 the force applied would
be transmitted through the liquid in the pipe and the same force per
cm2 will be exerted at the other end of the pipe no matter
what the pipe's diameter.
Hydraulic brakes
At one time car brakes worked by a system of levers applying force to
the brake linings against the brake drum. Now brake fluid is used to
transmit that force much more effectively. Pressure on the brake pedal
applies a force to the master cylinder that then transmits the force
to the braking mechanism. Large trucks also use hydraulic pressure,
but here the hydraulics are used to hold the brakes OFF, and the force
is released as the brake pedal is depressed. Then the greater force
to apply the brakes is able to take over. The "sigh" as a
truck or bus releases the brakes is the hydraulic pressure being reapplied.
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Hydraulic presses
To raise a car while being serviced requires a great force. This is
applied by hydraulic pressure where force from a pump is applied to
a small-diameter piston, the force is transmitted by oil in the sealed
system, and that force is multiplied by raising a much greater diameter
piston at the car-raising end. The force magnification is proportional
to the relative surface areas of each piston. However, the distance
moved by the larger diameter piston is much less than the distance moved
by the smaller piston.
A long easy push on the small cylinder will lift a larger mass, a smaller
distance on the larger cylinder.
Hydraulics at work
A study of hydraulics is essential in designing dams and controlling
water flow through pipes of different diameters. The "hammering"
that can sometimes be heard in water pipes is due to the unbalanced
flow of water, due to bad design or some unplanned plumbing!
Pneumatics
This is the branch of physics dealing with gases at rest or in motion.
Compressed air is the most common gas used for pneumatic applications.
Because energy is required to compress gasses, energy can be stored
in compressed gasses. This stored energy can be released to do work,
by decompressing the gas. A good example of stored energy being released
is the sound produced when a compressed gas horn is activated. Any system
using energy stored as a compressed gas is called a pneumatic system.
One of the simplest pneumatic systems is a bicycle pump. The pump has
a simple valve allowing air to pass into the barrel as the handle is
pulled out. Then, when the handle is pushed in again the valve closes
and air is compressed. You can feel this force if you hold your finger
over the end as you push the handle. The compressed air is then used
to pump up a bicycle tyre to high pressure so that the ride will be
smoother and friction reduced.
Pneumatics at work
Pneumatic pressure is used in many everyday work situations. Examples
are pneumatic drills, high speed dentist's drills, tightening and loosening
wheel nuts on a car or truck, and sirens where air passes at high pressure
over a spinning disc with holes in it. Robots in automation systems
often operate by pneumatic pressure. Pneumatics are also used in underground
mining tools where electric motors might create sparks and potential
explosions.
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