ANEMOMETER
The
anemometer measures the wind speed and strength.
The wind speed can be displayed in different measurement units:
- Kilometre per hour (km/h)
- Metre per second (m/s)
- Knot per hour (Kt/h):
Note:
1 knot per hour = 1,852 km per hour = 0,515 m per second
- Beaufort (from 1 to 12; ie details in Beaufort)
BAROMETER
The
barometer is the basic meteorological instrument. Its main function
is to measure atmospheric pressure. Atmospheric pressure and especially
its foreseeable evolutions are the determining factors for generating
short- and medium-term weather forecasts. Even if atmospheric pressure
remains the indispensable measure, other natural events must be
observed and measured to generate high accurate trends.
Barometer
operating principle is based on a physical experiment: the pressure at
a specified point of a fluid (like air, water, or mercury) reveals the
intensity of the force exerted by the fluid on a specific surface,
whatever the orientation of this surface in space is. If we decide to
position this surface horizontal, the force, for a quiescent vacuum
fluid, is nothing but the backbone weight of the fluid overcoming the
surface. So, measuring the force exerted by the fluid means measuring
this weight...that is to say the backbone weight of the fluid
overcoming the horizontal reference surface. Of course, this applies to
the pressure exerted by the air at each point of the atmosphere and/or
of Earth Planet.
In
mercury barometers, a vertical glass
tube extends the quiescent mercury volume in contact with free air. The
air pressure on a horizontal level associated to the tube surface is
the same everywhere, and this pressure is atmospheric pressure. Thus,
the mercury column weight inside the tube at this level is the same as
the air column weight that would overcome a surface with a section
equals to the one of the tube, through the whole atmosphere. So,
measuring atmospheric pressure means measuring this weight...that is to
say the mercury column height from the surface level, since this height
is independent of the tube section.The
standard atmospheric pressure, fixed at 1 013,25 hPa, is equivalent to
760 mm of mercury height.
Invented
in 1643 by the Italian scientist Torricelli, mercury barometer figures
among the oldest instruments used in meteorology. Mercury was used
(before being considered as dangerous) for it was the heaviest liquid
ever tested: therefore shorter glass tubes could be used.
Later
aneroid barometers were widely used, they were so called because its
functioning was based on capsules movements amplification (unique or
stacked up for more precision) after vacuum inside those capsules was
made.
BEAUFORT
This
measurement unit was created by the British Admiral Francis
Beaufort (1774-1857) and has been used since 1874, especially by the
navy. It indicates in a simple way the wind power at a standard height
of 10m above a flat and covered soil.
The Beaufort unit has its equivalents in km/h and knot (kts).
| 0 |
Calm |
> 1 km/h (
> 1 knot) |
| 1 |
Light air |
1-5 km/h (1 to 3 kts) |
| 2 |
Light breeze |
6-11 km/h (4 to 6 kts) |
| 3 |
Gentle breeze |
12-19 km/h (7 to 10 kts) |
| 4 |
Moderate breeze |
20-28 km/h (11 to 16 kts) |
| 5 |
Fresh breeze |
29-38 km/h (17 to 21 kts) |
| 6 |
Strong breeze |
39-49 km/h (22 to 27 kts) |
| 7 |
Near galeRough trees,
difficult to walk against wind. The sea swells, foam getting the wind
direction bearings forms |
50-61 km/h (28 to 33 kts) |
| 8 |
Fresh gale |
62-74 km/h (34 to 40 kts) |
| 9 |
Strong gale |
75-88 km/h (41 to 47 kts) |
| 10 |
Storm |
89-102 km/h (48 to 55
kts) |
| 11 |
Violent storm |
103-117 km/h (56 to 63
kts) |
| 12 |
Hurricane |
118 km/h and more (64
kts and more) |
WIND
VANE
The
wind vane was invented by Leonardo da Vinci. It positions itself in
the wind direction, then mechanically or electronically indicates it on
a compass graduated North, North-West, West, etc. The wind direction
also expresses itself in degrees on this same compass graduated from
0°
to 360°. Then the North is 0° as well as 360°.
The graduation turns
clockwise, so that the East is at 90°, the South at
180° and the West
at 270°.
HUMIDEX OR COMFORT INDEX
This
index is calculated from the combination of the measured relative
humidity level and the effective temperature: the humidex or comfort
index allows evaluating the comfort of your environment.
If the
indoor temperature is between +20°C and +26°C and the
relative humidity
is between 45% and 65%, then the comfort level is satisfying. Outside
these ranges, the comfort level becomes mediocre then bad and finally
dreadful...the further off these ranges it moves.
HUMIDITY
Searching
for humidity value to evaluate the quantity of water in the
air. So electronic devices try to determinate the relative humidity
level. Talking about humidity means also talking about the humidity
felt at a specific time, at a certain place, by one or several people.
We will talk about a humid environment where the air is almost at
saturation, even saturated, and about a dryness feeling where on the
contrary the relative humidity level reveals an appreciable steam
deficiency compared to what would be acceptable at the same place (and
at the same temperature) before condensation starts.
Thus, humidity is a quantifiable meteorological unit, but also a
feeling, rationally subjective.
HYGROMETRY
The
humidity measurement is hygrometry and its measurement unit is the
percentage (%)…of the relative humidity of ambient air.
This relative humidity gives, in percentage, the ratio between the
quantity of steam effectively absorbed by the air and the maximum
quantity that could be absorbed at the same temperature. However, it is
advisable to distinguish:
Absolute
humidity (corresponding to the quantity of water (in weight) contained
at a specific time in a certain volume of air)
Relative humidity (percentage
corresponding to the ratio between
the existing water weight and the maximum water weight that could
contains the air mass)
LUXMETER
The
measurement unit of luminosity is lux (lx). The luxmeter is a
device measuring the quantity of light received by a subject or
reflected by a lighted surface. 1 lux is the illumination of a surface
located at 1m of a light source with a 1 Candela intensity (1 lux = 1
lumen /m² = 10-4 phot).
METEOROLOGY
Meteorology
is the science which aim is to study and experiment
atmospheric phenomenon and its laws. This discipline is based on
accurate scientific observations resting on physical laws.
It
belongs to our day life since weather forecast, the most famous branch
of meteorology, has an influence on our behaviour in many ways. From
the choice of what to wear to influences on human activities
(agriculture, aeronautics, etc.), meteorological phenomenon are very
important for the day life.
Despite being able to modify them
when they are detrimental, the human being has been trying to study and
forecast them. The climate is defined by the same parameters as
“ what
is the weather like?”: the temperature measured with the
thermometer,
the air humidity level (hygrometry) measured with the hygrometer, the
precipitations measured with the rainmeter, the wind force and speed
measured with the anemometer, etc...
RAIN
The
measurement unit of pluviometry is the millimetre (of rainfall...liquid
water).
The device designated for measuring the precipitation height is the
rainmeter. It is a receptacle with a specific surface collecting a
certain quantity of water that felt during a specific period of time: a
mathematic operation which is sometimes inaccurate allows graduating
simple rainmeters, so called funnels. Electronic rainmeters use the
reference units counting to upgrade the rainfalls.
Rainmeters must always be placed in non-sheltered areas, away from
trees, houses or walls.
DEW
POINT
During
the night, with a generally clear weather and no major
disturbance, the soil becomes colder and transmits this cooling to the
immediate air layers, which temperature is step by step dropping. If
the very low layers night cooling goes on with a sufficient
persistence, the saturating vapour pressure contained inside these
layers will not stop dropping as the temperature decreases. The steam
will start condensing and deposit dew on the soil: the achieved
temperature level is called dew point
ATMOSPHERIC PRESSURE
The
measurement unit of atmospheric pressure is hectopascal (hPa) : 1hPa =
100 Pa (100 Pascal).
Atmospheric pressure changes accordingly with the localisation and the
temperature.The standard pressure is 1013,25 hPa at 0 m altitude. At
500 m altitude, 954,5 hPa and at 1000 m altitude 899 hPa, etc....The
pressure changes from 1 hPa every 8 meters.
That
is to say moving a barometer from the ground floor of a building to the
10th floor can immediately modify a forecast. When the pressure
increases the weather should get better, when the pressure decreases
the weather should get worse. Improvement and degradation are always
referred to the former situation...
TEMPERATURE
The
temperature measurement units are firstly the degree Celsius
(°C)
then the degree Fahrenheit (°F). Thermometers allow measuring
the
temperature, but also temperature changes. The European measuring
system is the Celsius system, where water freezes at 0°
(freezing
point) and boils at 100° (boiling point).
Anglo-Saxon countries
use the Fahrenheit scale, where the freezing point is at +32°F
and the
boiling point is at 212°F. The conversion factor between
°C and °F is
calculated as follow:
°F
= (1,8 x °C) + 32 OR °C = 0,56 x ( °F - 32)
WINDCHILL
Windchill
is the temperature such as we feel in certain conditions,
especially in low temperature and strong wind. So windchill is a
different temperature (generally lower) than the real measured
temperature.
Around the skin, a thin air layer warmer than
ambient air is generated, because the body supplies a certain amount of
heat. The wind sends away this warm air layer and then the skin is not
protected anymore. Therefore the stronger is the wind, the colder we
feel...And the temperature felt by Mister X will then be different than
the one felt by Mister Y, depending on what clothes they are wearing.
