millimeters of mercury (mmHg) to millibar (mbar) conversion

1 mmHg = 1.33322 mbarmbarmmHg
Formula
1 mmHg = 1.33322 mbar

Converting between millimeters of mercury (mmHg) and millibar (mbar) involves understanding the relationship between different pressure units. Here's how to perform these conversions, some background, and real-world examples.

Conversion Factors

The conversion between mmHg and mbar relies on a standard relationship derived from the definition of these units.

  • 1 mmHg is approximately equal to 1.33322 millibars.
  • 1 mbar is approximately equal to 0.750062 mmHg.

Converting mmHg to mbar

To convert from millimeters of mercury to millibars, multiply the mmHg value by the conversion factor:

mbar=mmHg×1.33322\text{mbar} = \text{mmHg} \times 1.33322

Step-by-step conversion:

  1. Identify the mmHg value: Let's start with 1 mmHg.

  2. Apply the conversion factor: Multiply 1 mmHg by 1.33322.

    1 mmHg×1.33322=1.33322 mbar1 \text{ mmHg} \times 1.33322 = 1.33322 \text{ mbar}

Therefore, 1 mmHg is equal to 1.33322 mbar.

Converting mbar to mmHg

To convert from millibars to millimeters of mercury, multiply the mbar value by the conversion factor:

mmHg=mbar×0.750062\text{mmHg} = \text{mbar} \times 0.750062

Step-by-step conversion:

  1. Identify the mbar value: Let's start with 1 mbar.

  2. Apply the conversion factor: Multiply 1 mbar by 0.750062.

    1 mbar×0.750062=0.750062 mmHg1 \text{ mbar} \times 0.750062 = 0.750062 \text{ mmHg}

Therefore, 1 mbar is equal to 0.750062 mmHg.

Historical Context and Notable Figures

The millimeter of mercury (mmHg) is a unit of pressure that originated from the mercury barometer. The mercury barometer was invented by Evangelista Torricelli, an Italian physicist and mathematician, in 1643. Torricelli was a student of Galileo Galilei. He is credited with creating the first sustained vacuum and revolutionizing our understanding of atmospheric pressure.

The unit "millibar" (mbar) is commonly used in meteorology to measure atmospheric pressure. It is part of the metric system and is equal to 100 Pascals (Pa).

Real-World Examples

Here are some examples of conversions between mmHg and mbar:

  1. Atmospheric Pressure: Standard atmospheric pressure is often given as 760 mmHg. In millibars:

    760 mmHg×1.33322=1013.25 mbar760 \text{ mmHg} \times 1.33322 = 1013.25 \text{ mbar}

    This is why standard atmospheric pressure at sea level is approximately 1013.25 mbar.

  2. Weather Reports: Weather reports often use millibars to indicate atmospheric pressure. If a weather report indicates a pressure of 1000 mbar, you can convert it to mmHg:

    1000 mbar×0.750062=750.062 mmHg1000 \text{ mbar} \times 0.750062 = 750.062 \text{ mmHg}

  3. Medical Applications: Blood pressure is often measured in mmHg. For example, a blood pressure reading of 120/80 mmHg can be related to pressure changes in mbar, although direct conversion isn't typically necessary in this context.

  4. Aviation: Aircraft altimeters use pressure to determine altitude. Pilots frequently deal with pressure settings in both inches of mercury (inHg) and millibars (hPa, which is numerically equivalent to mbar).

How to Convert millimeters of mercury to millibar

To convert millimeters of mercury (mmHg) to millibar (mbar), multiply the pressure value by the conversion factor between the two units. For this conversion, use 1 mmHg=1.33322 mbar1 \text{ mmHg} = 1.33322 \text{ mbar}.

  1. Write down the given value:
    Start with the pressure you want to convert:

    25 mmHg25 \text{ mmHg}

  2. Use the conversion factor:
    Since each millimeter of mercury equals 1.333221.33322 millibar, set up the multiplication:

    25 mmHg×1.33322 mbar1 mmHg25 \text{ mmHg} \times \frac{1.33322 \text{ mbar}}{1 \text{ mmHg}}

  3. Cancel the original unit:
    The mmHg\text{mmHg} unit cancels, leaving the result in millibar:

    25×1.33322 mbar25 \times 1.33322 \text{ mbar}

  4. Calculate the result:
    Multiply the numbers:

    25×1.33322=33.330525 \times 1.33322 = 33.3305

  5. Result:

    25 millimeters of mercury=33.3305 millibar25 \text{ millimeters of mercury} = 33.3305 \text{ millibar}

A practical tip: if you are converting many mmHg values to mbar, keep the factor 1.333221.33322 handy. Always label your units during the setup so you can confirm they cancel correctly.

millimeters of mercury to millibar conversion table

millimeters of mercury (mmHg)millibar (mbar)
00
11.33322
22.66644
33.99966
45.33288
56.6661
67.99932
79.33254
810.66576
911.99898
1013.3322
1519.9983
2026.6644
2533.3305
3039.9966
4053.3288
5066.661
6079.9932
7093.3254
80106.6576
90119.9898
100133.322
150199.983
200266.644
250333.305
300399.966
400533.288
500666.61
600799.932
700933.254
8001066.576
9001199.898
10001333.22
20002666.44
30003999.66
40005332.88
50006666.1
1000013332.2
2500033330.5
5000066661
100000133322
250000333305
500000666610
10000001333220

What is millimeters of mercury?

Millimeters of mercury (mmHg) is a unit of pressure, often used in medicine (especially blood pressure) and meteorology. It represents the pressure exerted by a column of mercury one millimeter high at a standard temperature. Let's delve into its definition, history, and applications.

Definition and Formation

Millimeters of mercury (mmHg) is a manometric unit of pressure. Specifically, it's the pressure exerted at the base of a column of mercury exactly 1 millimeter high when the density of mercury is 13,595.1 kg/m³ and the local acceleration of gravity is exactly 9.80665 m/s². It's not an SI unit, but it is accepted for use with the SI.

While not an official SI unit (Pascal is the SI unit for pressure), mmHg remains widely used due to its historical significance and practical applications, especially in fields like medicine.

History and Torricelli's Experiment

The unit originates from Evangelista Torricelli's experiments in the 17th century. Torricelli, an Italian physicist and mathematician, invented the mercury barometer in 1643. He filled a glass tube with mercury and inverted it into a dish of mercury. The mercury column would fall, leaving a vacuum at the top, and the height of the column was proportional to the atmospheric pressure. This led to the standardized measurement of pressure using the height of a mercury column. Read more about it in Britannica.

Relation to Other Units

  • Pascal (Pa): The SI unit of pressure. 1 mmHg is approximately equal to 133.322 Pascals.

    1mmHg133.322Pa1 \, mmHg \approx 133.322 \, Pa

  • Atmosphere (atm): A standard unit of pressure. 1 atm is equal to 760 mmHg.

    1atm=760mmHg1 \, atm = 760 \, mmHg

  • Torr: Named after Torricelli, 1 Torr is very close to 1 mmHg. For most practical purposes, they are considered equivalent.

    1Torr1mmHg1 \, Torr \approx 1 \, mmHg

Real-World Examples and Applications

  • Blood Pressure: In medicine, blood pressure is commonly measured in mmHg. For example, a blood pressure reading of 120/80 mmHg indicates a systolic pressure of 120 mmHg and a diastolic pressure of 80 mmHg. The first number represents the pressure in the arteries when the heart beats (systolic pressure) and the second number represents the pressure in the arteries between beats (diastolic pressure).

  • Atmospheric Pressure: Meteorologists often use mmHg to report atmospheric pressure. Standard atmospheric pressure at sea level is 760 mmHg. Changes in atmospheric pressure are often precursors to changes in weather.

  • Vacuum Gauges: Many vacuum gauges, particularly older or specialized instruments, display pressure in mmHg. Low pressures in vacuum systems, such as those used in scientific experiments or manufacturing processes, are often expressed in mmHg or fractions thereof (e.g., milliTorr, which is approximately 1/1000 of a mmHg).

  • Aircraft Altimeters: Aircraft altimeters use atmospheric pressure to determine altitude. While the actual scale on the altimeter might be in feet or meters, the underlying pressure measurement is often related to mmHg.

Important Considerations

While mmHg is widely used, it's essential to be aware of its limitations:

  • Temperature Dependence: The density of mercury varies with temperature, so precise measurements require temperature corrections.
  • Local Gravity: Although standardized, the local acceleration due to gravity can vary slightly depending on location, potentially affecting accuracy.

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 mbar=100 Pa=1 hPa1 \text{ mbar} = 100 \text{ Pa} = 1 \text{ hPa}

Another unit of pressure is standard atmosphere (atm)

1 atm=1013.25 mbar1 \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 mbar=100 Pa1 \text{ mbar} = 100 \text{ Pa}.
  • Hectopascal (hPa): 1 hPa=1 mbar1 \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 mbar1013.25 \text{ mbar}.
  • Inches of Mercury (inHg): Commonly used in aviation in the United States. 1 mbar0.02953 inHg1 \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 mbar1013.25 \text{ mbar}.
  • Hurricane Central Pressure: Intense hurricanes can have central pressures below 950 mbar950 \text{ mbar}. For example, Hurricane Katrina (2005) had a minimum central pressure of around 902 mbar902 \text{ mbar}.
  • Mount Everest Summit Pressure: The atmospheric pressure at the summit of Mount Everest is roughly 330 mbar330 \text{ mbar}.
  • Typical House Pressure: The pressure inside buildings is near 1013.25 mbar1013.25 \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.

Frequently Asked Questions

What is the formula to convert millimeters of mercury to millibar?

To convert millimeters of mercury to millibar, multiply the pressure in mmHg by the verified factor 1.333221.33322. The formula is: mbar=mmHg×1.33322 \text{mbar} = \text{mmHg} \times 1.33322 .

How many millibar are in 1 millimeter of mercury?

There are 1.333221.33322 millibar in 11 millimeter of mercury. This means every 11 mmHg corresponds directly to 1.333221.33322 mbar.

Why do I need to convert mmHg to mbar?

Pressure values are reported in different units depending on the field, device, or country. Converting mmHg to mbar helps compare readings consistently across weather instruments, laboratory equipment, and technical documents.

Where is converting mmHg to mbar used in real life?

This conversion is commonly used in meteorology, aviation, healthcare, and scientific research. For example, a pressure reading from a medical or laboratory instrument in mmHg may need to be expressed in mbar for compatibility with another system.

Can I use a simple multiplication method to convert mmHg to mbar?

Yes, the conversion is a straightforward multiplication using the fixed factor 1.333221.33322. If you know the pressure in mmHg, multiply it once by 1.333221.33322 to get the value in mbar.

Is mmHg larger or smaller than mbar?

A value in mmHg becomes numerically larger when converted to mbar because 11 mmHg equals 1.333221.33322 mbar. That means the mbar value will be higher than the original mmHg value for the same pressure.

People also convert

mmHg to PammHg to kPammHg to MPammHg to hPammHg to mbarmmHg to barmmHg to torrmmHg to mH2O

Complete millimeters of mercury conversion table

mmHg
UnitResult
pascals (Pa)133.322 Pa
kilopascals (kPa)0.133322 kPa
megapascals (MPa)0.000133322 MPa
hectopascals (hPa)1.33322 hPa
millibar (mbar)1.33322 mbar
bar (bar)0.00133322 bar
torr (torr)0.9999972366149 torr
meters of water @ 4°C (mH2O)0.01359506049466 mH2O
pounds per square inch (psi)0.01933671367695 psi
kilopound per square inch (ksi)0.00001933671367695 ksi
Inches of mercury (inHg)0.03936996069858 inHg

Pressure conversions