As well as telling you what the weather is like right now, this site also provides lots of different weather instrument readings. If you know what they mean, you’ll have a better understanding of why the weather is like it is and what might be coming next.
This website makes use of a personal weather station. A personal weather station is a set of atmospheric snesors operated by a private individual, club, association, or even business). Personal weather stations have become more advanced and can include many different instruments to measure the weather conditions. These sensors can vary between makes and models but most measure wind speed, wind direction, outdoor and indoor temperatures, outdoor and indoor humidity, barometric pressure, rainfall, sometimes UV or solar radiation.
Pressure – Readings From the Barometer
A barometer is a device that reads atmospheric pressure. It is used to predict the weather as atmospheric pressure changes due to warmer and colder weather systems. If you are using an analogue barometer at home or a digital barometer on your cell phone or other electronic device, you may see the barometric reading reported in inches of mercury (inHg) in the U.S. Meteorologists use the unit millibars (mb) and the SI unit used worldwide is Pascals (Pa).
The air that surrounds the Earth creates atmospheric pressure. As you go up into mountains or fly high in an airplane, the air is thinner and the pressure is less. Air pressure is also known as barometric pressure and is measured using a device called a barometer. A rising barometer indicates increasing air pressure; a falling barometer indicates decreasing air pressure. The air pressure at sea level at a temperature of 59 F (15 C) is one atmosphere (Atm).
How Air Pressure Changes
Changes in air pressure are also caused by the difference in air temperature above the Earth. Continental landmasses and ocean waters change the temperature of the air above them. These changes create wind and cause pressure systems to develop. The wind moves these pressure systems that change as they pass over mountains, oceans, and other areas.
Relationship between air pressure and weather
Years ago the French scientist and philosopher Blaise Pascal, discovered that air pressure decreases with height, and pressure changes at ground level at any one place can be related to daily weather changes. Often, weather forecasters refer to a storm or low-pressure area moving toward your region.
As air rises, it cools and often condenses into clouds and precipitation. In high-pressure systems the air sinks toward the Earth and warms up, leading to dry and fair weather.
Change in Barometric Pressure
When the air is dry, cool, and pleasant, the mercury or barometer reading rises.
When the air is warm and wet, the barometer reading falls.
When the air pressure falls, it usually indicates some type of storm or wet weather is coming.
When it rises, it often means clear weather.
If the barometer remains steady, there will be no immediate change in the weather.
Predicting the Weather
Checking a barometer with readings in inches of mercury (inHg), this is how you may interpret them:
Over 30.20 (1023 mb):
Rising or steady pressure means continued fair weather.
Slowly falling pressure means fair weather.
Rapidly falling pressure means cloudy and warmer conditions.
29.80 to 30.20 (1009 mb to 1023 mb):
Rising or steady pressure means present conditions will continue.
Slowly falling pressure means little change in the weather.
Rapidly falling pressure means that rain is likely, or snow if it is cold enough.
Under 29.80 (1009 mb):
Rising or steady pressure indicates clearing and cooler weather.
Slowly falling pressure indicates rain
Rapidly falling pressure indicates a storm is coming.
Isobars on Weather Maps
Meteorologists use a metric unit for pressure called a millibar and the average pressure at sea level is 1013.25 millibars. A line on a weather map connecting points of equal atmospheric pressure is called an isobar. For example, a weather map will show a line connecting all points where the pressure is 996 mb (millibars) and a line below it where the pressure is 1000 mb. Points above the 1000 mb isobar have a lower pressure and points below that isobar have a higher pressure.