Relative Humidity Equations Calculator

Meteorology Weather Water Vapor Formulas


Problem:

Solve for relative humidity.

relative humidity

Enter Inputs:

actual vapor pressure (e)
saturated vapor pressure (es)

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Solution:

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relative humidity
relative humiditySolve for relative humidity.
actual vapor pressureSolve for actual vapor pressure.
saturated vapor pressureSolve for saturated vapor pressure.
dew point relative humidity
relative humidityrelative humidity
temperaturetemperature
dewpoint temperaturedewpoint temperature

Reference - Books

Martin Wanielista, Robert Kersten and Ron Eaglin. 1997. Hydrology Water Quantity and Quality Control. John Wiley & Sons. 2nd ed.


Background

Relative humidity (RH) is crucial in meteorology, climatology, and other scientific fields. It measures the amount of moisture in the air compared to the maximum amount it can hold at a given temperature. Understanding how to calculate relative humidity is essential for weather forecasting, HVAC design, agricultural planning, and more. The calculation involves two key terms: actual vapor pressure (AVP) and saturated vapor pressure (SVP).


Equation

The equation to calculate relative humidity is straightforward:

RH = AVP / SVP * 100

Where:

  • RH - The relative humidity as a percentage.
  • AVP - The actual vapor pressure at the current air temperature, indicating the current amount of water vapor in the air.
  • SVP - The the saturated vapor pressure at the same temperature, representing the maximum amount of water vapor the air can hold.

How to Solve

  • Obtain AVP and SVP: The actual vapor pressure can be measured directly with a hygrometer or calculated from dew point data. Saturated vapor pressure is often found using temperature-dependent equations, such as the Clausius-Clapeyron equation, or from established tables.
  • Substitute Values: Substitute them into the relative humidity equation once you have both AVP and SVP.
  • Calculate: Divide AVP by SVP, then multiply the result by 100 to make it a percentage.
  • Interpret: The result gives you the relative humidity, indicating the air is saturated with water vapor.

Example

Suppose the actual vapor pressure (AVP) is 12 millibars, and the saturated vapor pressure (SVP) is 20 millibars.

RH = 12 / 20 * 100= 0.6 * 100 = 60%

This means the air's moisture content is 60% of its total capacity at the current temperature.


Fields & Degrees

  • Meteorology: For weather prediction and climate study.
  • Agriculture: Understanding RH helps in managing crop irrigation and protection.
  • HVAC Engineering: For designing systems that maintain comfortable indoor humidity levels.
  • Environmental Science: In assessing ecosystem health and predicting weather effects.
  • Art Conservation: RH is crucial in preserving artifacts and artworks from moisture damage.

Real-Life Applications

  • Weather Forecasting: Predicting fog, dew, or frost occurrence.
  • Agricultural Irrigation Scheduling: Determining the watering needs based on air moisture.
  • Indoor Air Quality Management: Controlling humidity in homes, offices, and museums to prevent mold and ensure comfort.
  • Clothing Design: Selecting appropriate materials for different climates based on humidity levels.
  • Food Storage: Manage humidity to avoid spoilage and maintain quality.

Common Mistakes

  • Confusing RH with Absolute Humidity: RH is a percentage, while absolute humidity is the actual moisture content in the air.
  • Ignoring Temperature: RH is temperature-dependent; forgetting temperature adjustments can lead to inaccurate results.
  • Using Incorrect Units: Ensure AVP and SVP are in the same units before calculating.
  • Instrument Calibration: Incorrect RH readings due to uncalibrated instruments like hygrometers.
  • Overlooking Local Variations: Local factors can significantly alter RH readings, so local measurements are crucial.

Frequently Asked Questions

  • Why does relative humidity change with temperature?
    SVP increases with temperature, so if moisture levels stay constant but temperature rises, RH decreases and vice versa.
  • Can relative humidity go over 100%?
    In theory, RH should not exceed 100%. However, supersaturation can occur under certain conditions, pushing RH slightly above 100%.
  • Is high relative humidity bad?
    Excessively high or low RH can be uncomfortable or unhealthy for humans and harmful to various materials and structures.
  • How does rain affect relative humidity?
    Rain usually increases the air's moisture, thus increasing RH, but the effect is complex and depends on other factors, such as temperature and pressure.
  • What time of day is relative humidity highest?
    RH is often highest in the early morning when temperatures are lowest and decreases as temperatures rise throughout the day.
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