millibar (mbar) to pascals (Pa) conversion

What is millibar?

The millibar (mbar) is a unit of pressure commonly used in meteorology to measure atmospheric pressure. Understanding millibars helps in interpreting weather patterns and forecasts. Below is an overview of millibars, their relation to other units, and their significance.

Definition of Millibar

A millibar is defined as 100 Pascals (Pa), where a Pascal is the SI unit of pressure (force per unit area). The prefix "milli-" indicates one-thousandth, so:

$$1 \text{ mbar} = 100 \text{ Pa} = 1 \text{ hPa}$$

Another unit of pressure is standard atmosphere (atm)

$$1 \text{ atm} = 1013.25 \text{ mbar}$$

Formation and History

The term "bar" comes from the Greek word "báros," meaning weight. The bar was introduced by the British physicist Napier Shaw in 1909, and the millibar soon followed as a more practical unit for meteorology because typical atmospheric pressures on Earth are close to 1000 mbar.

Relation to Other Units

• Pascal (Pa): The SI unit of pressure. $1 \text{ mbar} = 100 \text{ Pa}$.
• Hectopascal (hPa): $1 \text{ hPa} = 1 \text{ mbar}$. Hectopascals are numerically equivalent to millibars and are commonly used in aviation.
• Atmosphere (atm): Standard atmospheric pressure at sea level is approximately $1013.25 \text{ mbar}$.
• Inches of Mercury (inHg): Commonly used in aviation in the United States. $1 \text{ mbar} \approx 0.02953 \text{ inHg}$.

Significance in Meteorology

Atmospheric pressure is a critical factor in weather forecasting. Here's how millibars are used:

• Weather Maps: Isobars (lines of equal pressure) on weather maps are often labeled in millibars, showing high and low-pressure systems.
• High-Pressure Systems: Associated with stable weather conditions, typically ranging from 1015 mbar to 1035 mbar or higher.
• Low-Pressure Systems: Associated with unsettled weather, such as storms and rain, typically ranging from 980 mbar to 1000 mbar or lower.
• Storm Intensity: The central pressure of a hurricane or cyclone is measured in millibars; lower pressures indicate stronger storms. For example, Hurricane Wilma in 2005 had a record low central pressure of 882 mbar.
• Aviation: Altitude is determined by measuring atmospheric pressure

Real-World Examples

• Standard Sea Level Pressure: The standard atmospheric pressure at sea level is approximately $1013.25 \text{ mbar}$.
• Hurricane Central Pressure: Intense hurricanes can have central pressures below $950 \text{ mbar}$. For example, Hurricane Katrina (2005) had a minimum central pressure of around $902 \text{ mbar}$.
• Mount Everest Summit Pressure: The atmospheric pressure at the summit of Mount Everest is roughly $330 \text{ mbar}$.
• Typical House Pressure: The pressure inside buildings is near $1013.25 \text{ mbar}$.

Interesting Facts and Associations

• Torricelli's Experiment: Evangelista Torricelli, an Italian physicist, invented the barometer in the 17th century, paving the way for accurate pressure measurement. Though he didn't use millibars (as the unit wasn't invented yet), his work laid the foundation for understanding atmospheric pressure. Learn more at Britannica.
• Beaufort Scale: While the Beaufort scale primarily measures wind speed, it indirectly relates to pressure gradients. Steeper pressure gradients (indicated by closely spaced isobars) typically result in stronger winds. More information is on the National Weather Service.

What is pascals?

Pascal (Pa) is the SI unit of pressure, defined as the force of one newton acting on an area of one square meter. This section will delve into the definition, formation, historical context, and practical applications of Pascal.

Pascal Definition

The pascal (Pa) is the SI derived unit of pressure used to quantify internal pressure, stress, Young's modulus, and ultimate tensile strength. It is defined as one newton per square meter.

$$1 \ Pa = 1 \frac{N}{m^2}$$

It can also be described using SI base units:

$$1 \ Pa = 1 \frac{kg}{m \cdot s^2}$$

Formation of Pascal

Pascal as a unit is derived from the fundamental units of mass (kilogram), length (meter), and time (second). Pressure, in general, is defined as force per unit area.

• Force: Measured in Newtons (N), which itself is defined as $kg \cdot m/s^2$ (from Newton's second law, $F=ma$).
• Area: Measured in square meters ($m^2$).

Thus, Pascal combines these: $N/m^2$ which translates to $(kg \cdot m/s^2) / m^2 = kg/(m \cdot s^2)$.

Blaise Pascal and Pascal's Law

The unit is named after Blaise Pascal (1623-1662), a French mathematician, physicist, inventor, writer, and Catholic theologian. He made significant contributions to the fields of mathematics, physics, and early computing.

Pascal's Law (or Pascal's Principle) states that a pressure change occurring anywhere in a confined incompressible fluid is transmitted throughout the fluid such that the same change occurs everywhere.

Mathematically, this is often represented as:

$\Delta P = \rho g \Delta h$

Where:

• $\Delta P$ is the hydrostatic pressure difference
• $\rho$ is the fluid density
• $g$ is the acceleration due to gravity
• $\Delta h$ is the height difference of the fluid

For further reading about Pascal's Law, you can refer to Pascal's Law and Hydraulics.

Real-World Examples

Here are some examples of pressure measured in Pascals or related units (like kilopascals, kPa):

• Atmospheric Pressure: Standard atmospheric pressure at sea level is approximately 101,325 Pa, or 101.325 kPa.
• Tire Pressure: Car tire pressure is often measured in PSI (pounds per square inch), but can be converted to Pascals. For example, 35 PSI is roughly 241 kPa.
• Hydraulic Systems: The pressure in hydraulic systems, like those used in car brakes or heavy machinery, can be several megapascals (MPa).
• Water Pressure: The water pressure at the bottom of a 1-meter deep pool is approximately 9.8 kPa (ignoring atmospheric pressure). The Hydrostatic pressure can be determined with formula $\Delta P = \rho g \Delta h$. Given that the density of water is approximately 1000 $kg/m^3$ and the acceleration due to gravity is 9.8 $m/s^2$
• Weather Forecasts: Atmospheric pressure changes are often reported in hectopascals (hPa), where 1 hPa = 100 Pa.