Barometric pressure is a crucial atmospheric condition that profoundly affects weather patterns and our daily lives. By measuring the weight of the air pressing down on the Earth’s surface, we can gain valuable insights into changes in weather conditions and even predict upcoming storms. The average barometric pressure serves as a key statistic in understanding long-term trends and variations in atmospheric pressure. In this blog post, we will delve into the fascinating world of average barometric pressure statistics and explore how they provide valuable information for meteorologists, researchers, and weather enthusiasts alike. Join us as we uncover the significance of average barometric pressure and uncover the hidden stories behind this important atmospheric measurement.
The Latest Average Barometric Pressure Statistics Explained
The average barometric pressure of the earth at sea level is 1013.25 millibars.
The statistic states that the average barometric pressure of the earth at sea level is measured to be 1013.25 millibars. Barometric pressure refers to the weight exerted by the Earth’s atmosphere on a specific area. This particular measurement indicates the standard or typical atmospheric pressure experienced at sea level. It helps to provide a reference point for understanding variations in atmospheric pressure in different regions and altitude levels.
The lowest recorded barometric pressure on earth was 870 hPa (25.69 inhg), recorded as Typhoon Tip struck the western Pacific Ocean.
The lowest recorded barometric pressure on earth was 870 hPa (25.69 inhg) during the occurrence of Typhoon Tip in the western Pacific Ocean. Barometric pressure is a measure of the weight of the atmosphere above a specific location, indicating the air’s density and weather conditions. A lower barometric pressure indicates a higher likelihood of stormy weather, as the pressure drop suggests the presence of a powerful weather system like a typhoon. Typhoon Tip, known for being one of the most intense tropical cyclones ever recorded, caused a significant drop in barometric pressure, reaching an exceptionally low value of 870 hPa. This statistic serves as a testament to the extreme nature of the typhoon and its impact on the atmospheric conditions in its path.
The highest recorded barometric pressure recorded on Earth was 1083.8 hPa (32.00 inHg), observed in Agata, Russia.
The statistic states that the highest ever recorded barometric pressure on Earth was 1083.8 hPa (hectopascals) or 32.00 inHg (inches of mercury), and it was observed in Agata, Russia. Barometric pressure is a measure of the weight of the column of air above a specific location. It is commonly used in weather forecasting and studying atmospheric conditions. This particular record indicates an exceptionally high pressure reading, suggesting that there was an unusually large amount of air above Agata at that time.
Every 100 meter increase in altitude drops the barometric pressure by about 1 hPa.
This statistic states that for every 100 meter increase in altitude, the barometric pressure (measured in hectopascals, symbol hPa) will decrease by approximately 1 hPa. Barometric pressure refers to the air pressure exerted on the Earth’s surface by the weight of the atmosphere. As altitude increases, there is less air above, resulting in a decrease in pressure. The relationship between altitude and barometric pressure is inverse, meaning that as altitude increases, barometric pressure decreases. This statistic quantifies this relationship by indicating that for every 100 meter increase in altitude, there is a consistent drop of about 1 hPa in barometric pressure.
In Beijing, the average annual atmospheric pressure range can be between 977 hPa and 1033 hPa.
The statistic states that in Beijing, the average annual atmospheric pressure range is between 977 hPa (hectopascal) and 1033 hPa. Atmospheric pressure is the force exerted by the weight of the air above a given area. This statistic indicates that Beijing experiences variations in atmospheric pressure throughout the year, with the lowest recorded pressure being 977 hPa and the highest being 1033 hPa. The range of atmospheric pressure provides insight into the magnitude of pressure fluctuations experienced in Beijing’s atmosphere annually.
The Aviators’ Model Code (AMC) puts standard atmospheric pressure at sea level at 1013.25 hPa.
The Aviators’ Model Code (AMC) defines the standard atmospheric pressure at sea level to be 1013.25 hPa. This statistic indicates the average air pressure exerted by the Earth’s atmosphere at sea level under normal conditions. The AMC serves as a reference point for comparing and measuring atmospheric pressure in aviation and other related fields. It provides a standardized value that helps pilots, meteorologists, and engineers analyze and interpret data related to air pressure and its effects on flight and weather patterns.
In New Delhi, India, the average annual atmospheric pressure range can span from 993 hPa to 1015 hPa.
This statistic indicates that in New Delhi, India, the annual atmospheric pressure can vary between 993 hPa (hectopascals) and 1015 hPa. Atmospheric pressure is the force exerted by the weight of air molecules in the Earth’s atmosphere. The range of 993 hPa to 1015 hPa suggests that the air pressure in New Delhi can fluctuate throughout the year, with values below and above the average atmospheric pressure of around 1013 hPa. These variations in atmospheric pressure can have an impact on weather patterns, influencing temperature, wind, and precipitation in the region.
In Alaska, the average barometric pressure is usually between 990 to 1020 hPa.
The statistic “In Alaska, the average barometric pressure is usually between 990 to 1020 hPa” indicates the typical range of barometric pressure experienced in the region. Barometric pressure refers to the weight of the atmosphere pressing down on the Earth’s surface, and it is measured in hectopascals (hPa). The average range of 990 to 1020 hPa suggests that the atmospheric pressure in Alaska tends to vary within this interval. This information is useful in understanding the typical weather patterns and atmospheric conditions in Alaska, as barometric pressure often influences weather changes such as the formation of high or low-pressure systems.
The city of Quito in Ecuador, which is 2,850 metres above sea level, has an average barometric pressure of about 680 hPa.
The statistic mentioned states that the average barometric pressure in the city of Quito, which is located in Ecuador and situated at an altitude of 2,850 meters above sea level, is approximately 680 hPa. Barometric pressure refers to the force exerted by the Earth’s atmosphere on a particular area. It is commonly used to measure weather patterns and atmospheric conditions. As Quito is located at a high altitude, the average barometric pressure is lower compared to sea level due to the reduced weight of the atmosphere. The measurement of 680 hPa represents the average pressure experienced in Quito, providing valuable information about the atmospheric conditions in the city.
The city of Johannesburg in South Africa, which is 1,753 metres above sea level, has an average barometric pressure of about 830 hPa.
The given statistic states that the city of Johannesburg in South Africa is situated at an altitude of 1,753 meters above sea level and has an average barometric pressure of approximately 830 hectopascals (hPa). Barometric pressure refers to the atmospheric pressure exerted by the weight of the air in a particular area, indicating the force per unit area exerted on the Earth’s surface by the overlying air. The average barometric pressure of 830 hPa in Johannesburg provides information about the average atmospheric pressure experienced in that city, influenced by factors such as elevation, weather patterns, and air density.
In Tokyo, the average annual atmospheric pressure could range from 999 hPa to 1016 hPa.
This statistic refers to the average annual atmospheric pressure range in Tokyo, expressed in hectopascals (hPa), which is a unit commonly used to measure atmospheric pressure. The data shows that on average, the atmospheric pressure in Tokyo can vary between 999 hPa and 1016 hPa over the course of a year. Atmospheric pressure is an important parameter in weather forecasting and can affect various aspects of our daily lives, such as the stability of the atmosphere, wind patterns, and the formation of weather systems. By understanding the average range of atmospheric pressure in Tokyo, meteorologists and scientists can better predict and analyze weather conditions in this region.
The barometric pressure at the Dead Sea, the lowest place on Earth, is about 1060 hPa on average.
The statistic states that on average, the barometric pressure at the Dead Sea, which is recognized as the lowest place on Earth, is approximately 1060 hectopascals (hPa). Barometric pressure refers to the amount of force exerted by the Earth’s atmosphere on a given surface, with hPa being the common unit of measurement. This particular statistic provides an indication of the atmospheric pressure experienced at the Dead Sea, presenting an average value that helps illustrate the typical air pressure in that region.
In Miami, the average annual atmospheric pressure ranges from about 1011 hPa to 1017 hPa.
The given statistic states that in Miami, on average, the atmospheric pressure throughout the year falls within the range of approximately 1011 hectopascals (hPa) to 1017 hPa. Atmospheric pressure is a measure of the force exerted by the weight of the air above a specific location. The range provided suggests that the pressure in Miami fluctuates within a relatively narrow band, indicating a relatively stable climate with minimal variations in the overall air pressure.
In Madrid, Spain, the average annual atmospheric pressure range can range from 925 hPa to 951 hPa.
The statement indicates that in Madrid, Spain, the average annual atmospheric pressure range is typically between 925 hPa to 951 hPa. This means that over the course of a year, the atmospheric pressure in Madrid can vary between these two values on average. Atmospheric pressure is a measure of the force exerted by the weight of the air in the atmosphere, and variations in pressure can have effects on weather patterns and climate. The given statistic provides an insight into the typical range of pressure values experienced in Madrid, helping to understand the atmospheric conditions in the area.
In Rio de Janeiro, Brazil, the average annual atmospheric pressure can range between 1014 hPa and 1016 hPa.
This statistic refers to the average annual atmospheric pressure in Rio de Janeiro, Brazil, which can vary within a range of 1014 hPa (hectopascals) to 1016 hPa. Atmospheric pressure is the force exerted by the weight of the air above a specific location and is an important factor in weather patterns. In this context, the average annual range of atmospheric pressure indicates the typical variations experienced throughout the year in Rio de Janeiro. It is worth noting that atmospheric pressure can influence various weather phenomena, such as the formation of clouds and the intensity of rainfall.
In Sydney, Australia, the average annual atmospheric pressure could range from 1014 hPa to 1017 hPa.
The statistic states that, on average, the annual atmospheric pressure in Sydney, Australia can fall within a range of 1014 hectopascals (hPa) to 1017 hPa. Atmospheric pressure is a measure of the weight of the air above a particular location and is commonly used in weather forecasts and studies. This range indicates the typical variability in pressure observed over the course of a year in Sydney. It is important to note that these values are averages and that actual values might deviate from this range due to various weather patterns and atmospheric conditions.
In Moscow, Russia, the average annual atmospheric pressure range can be between 995 hPa and 1026 hPa.
The statistic states that in Moscow, Russia, the average annual atmospheric pressure range can vary between 995 hPa (hectopascals) and 1026 hPa. Atmospheric pressure refers to the force exerted by the weight of the air above a specific location. Hectopascals are a unit of measurement commonly used to express atmospheric pressure. This statistic indicates that, on average, the atmospheric pressure in Moscow fluctuates within this range over the course of a year. It is important to note that variations in atmospheric pressure can have impacts on weather patterns and can affect the overall climate of a region.
Conclusion
In conclusion, average barometric pressure statistics provide valuable insights into atmospheric conditions and can be a useful tool for various industries, including meteorology, aviation, and agriculture. By examining these statistics, we can better understand long-term weather patterns, predict weather changes, and make informed decisions. Furthermore, the availability of historical data allows us to compare current barometric pressure values with previous years, enabling us to identify anomalies and potential climate shifts. Overall, average barometric pressure statistics serve as an essential resource for researchers, weather forecasting agencies, and anyone who wishes to gain a deeper understanding of the intricate dynamics of our atmosphere.
References
0. – https://www.www.easa.europa.eu
1. – https://www.www.worlddata.info
2. – https://www.en.climate-data.org
3. – https://www.www.worldweatheronline.com
4. – https://www.www.guinnessworldrecords.com
5. – https://www.www.weather.gov
6. – https://www.www.metoffice.gov.uk
7. – https://www.www.deadsea.com
8. – https://www.www.timeanddate.com
9. – https://www.www.sciencelearn.org.nz
10. – https://www.www.ecuador.com
11. – https://www.www.alaska.edu
