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Heat index

February 16, 2024

The heat index (HI) is an index that combines air temperature and relative humidity, in shaded areas, to posit a human-perceived equivalent temperature, as how hot it would feel if the humidity were some other value in the shade. For example, when the temperature is 32 °C (90 °F) with 70% relative humidity, the heat index is 41 °C (106 °F) (see table below). The heat index is meant to describe experienced temperatures in the shade, but it does not take into account heating from direct sunlight, physical activity or cooling from wind.

The human body normally cools itself by evaporation of sweat. High relative humidity reduces evaporation and cooling, increasing discomfort and potential heat stress. Different individuals perceive heat differently due to body shape, metabolism, level of hydration, pregnancy, or other physical conditions. Measurement of perceived temperature has been based on reports of how hot subjects feel under controlled conditions of temperature and humidity. Besides the heat index, other measures of apparent temperature include the Canadian humidex, the wet-bulb globe temperature, "relative outdoor temperature", and the proprietary "RealFeel".

History edit

The heat index was developed in 1979 by Robert G. Steadman.[1][2] Like the wind chill index, the heat index contains assumptions about the human body mass and height, clothing, amount of physical activity, individual heat tolerance, sunlight and ultraviolet radiation exposure, and the wind speed. Significant deviations from these will result in heat index values which do not accurately reflect the perceived temperature.[3]

In Canada, the similar humidex (a Canadian innovation introduced in 1965)[4] is used in place of the heat index. While both the humidex and the heat index are calculated using dew point, the humidex uses a dew point of 7 °C (45 °F) as a base, whereas the heat index uses a dew point base of 14 °C (57 °F).[further explanation needed] Further, the heat index uses heat balance equations which account for many variables other than vapor pressure, which is used exclusively in the humidex calculation. A joint committee[who?] formed by the United States and Canada to resolve differences has since been disbanded.[citation needed]

Definition edit

The heat index of a given combination of (dry-bulb) temperature and humidity is defined as the dry-bulb temperature which would feel the same if the water vapor pressure were 1.6 kPa. Quoting Steadman, "Thus, for instance, an apparent temperature of 24 °C (75 °F) refers to the same level of sultriness, and the same clothing requirements, as a dry-bulb temperature of 24 °C (75 °F) with a vapor pressure of 1.6 kPa."[1]

This vapor pressure corresponds for example to an air temperature of 29 °C (84 °F) and relative humidity of 40% in the sea-level psychrometric chart, and in Steadman's table at 40% RH the apparent temperature is equal to the true temperature between 26–31 °C (79–88 °F). At standard atmospheric pressure (101.325 kPa), this baseline also corresponds to a dew point of 14 °C (57 °F) and a mixing ratio of 0.01 (10 g of water vapor per kilogram of dry air).[1]

A given value of relative humidity causes larger increases in the heat index at higher temperatures. For example, at approximately 27 °C (81 °F), the heat index will agree with the actual temperature if the relative humidity is 45%, but at 43 °C (109 °F), any relative-humidity reading above 18% will make the heat index higher than 43 °C.[5]

It has been suggested that the equation described is valid only if the temperature is 27 °C (81 °F) or more.[6] The relative humidity threshold, below which a heat index calculation will return a number equal to or lower than the air temperature (a lower heat index is generally considered invalid), varies with temperature and is not linear. The threshold is commonly set at an arbitrary 40%.[5]

The heat index and its counterpart the humidex both take into account only two variables, shade temperature and atmospheric moisture (humidity), thus providing only a limited estimate of thermal comfort. Additional factors such as wind, sunshine and individual clothing choices also affect perceived temperature; these factors are parameterized as constants in the heat index formula. Wind, for example, is assumed to be 5 knots (9.3 km/h).[5] Wind passing over wet or sweaty skin causes evaporation and a wind chill effect that the heat index does not measure. The other major factor is sunshine; standing in direct sunlight can add up to 15 °F (8.3 °C) to the apparent heat compared to shade.[7] There have been attempts to create a universal apparent temperature, such as the wet-bulb globe temperature, "relative outdoor temperature", "feels like", or the proprietary "RealFeel".

Meteorological considerations edit

Outdoors in open conditions, as the relative humidity increases, first haze and ultimately a thicker cloud cover develops, reducing the amount of direct sunlight reaching the surface. Thus, there is an inverse relationship between maximum potential temperature and maximum potential relative humidity. Because of this factor, it was once believed that the highest heat index reading actually attainable anywhere on Earth was approximately 71 °C (160 °F). However, in Dhahran, Saudi Arabia on July 8, 2003, the dew point was 35 °C (95 °F) while the temperature was 42 °C (108 °F), resulting in a heat index of 81 °C (178 °F).[8]

The human body requires evaporative cooling to prevent overheating. Wet-bulb temperature and Wet Bulb Globe Temperature are used to determine the ability of a body to eliminate excess heat. A sustained wet-bulb temperature of about 35 °C (95 °F) can be fatal to healthy people; at this temperature our bodies switch from shedding heat to the environment, to gaining heat from it.[9] Thus a wet bulb temperature of 35 °C (95 °F) is the threshold beyond which the body is no longer able to adequately cool itself.[10]

Table of values edit

The table below is from the U.S. National Oceanic and Atmospheric Administration. The columns begin at 80 °F (27 °C), but there is also a heat index effect at 79 °F (26 °C) and similar temperatures when there is high humidity.

NOAA national weather service: heat index
Tempera­ture
Relative humidity
 80 °F (27 °C) 82 °F (28 °C) 84 °F (29 °C) 86 °F (30 °C) 88 °F (31 °C) 90 °F (32 °C) 92 °F (33 °C) 94 °F (34 °C) 96 °F (36 °C) 98 °F (37 °C) 100 °F (38 °C) 102 °F (39 °C) 104 °F (40 °C) 106 °F (41 °C) 108 °F (42 °C) 110 °F (43 °C)
40% 80 °F (27 °C) 81 °F (27 °C) 83 °F (28 °C) 85 °F (29 °C) 88 °F (31 °C) 91 °F (33 °C) 94 °F (34 °C) 97 °F (36 °C) 101 °F (38 °C) 105 °F (41 °C) 109 °F (43 °C) 114 °F (46 °C) 119 °F (48 °C) 124 °F (51 °C) 130 °F (54 °C) 136 °F (58 °C)
45% 80 °F (27 °C) 82 °F (28 °C) 84 °F (29 °C) 87 °F (31 °C) 89 °F (32 °C) 93 °F (34 °C) 96 °F (36 °C) 100 °F (38 °C) 104 °F (40 °C) 109 °F (43 °C) 114 °F (46 °C) 119 °F (48 °C) 124 °F (51 °C) 130 °F (54 °C) 137 °F (58 °C)
50% 81 °F (27 °C) 83 °F (28 °C) 85 °F (29 °C) 88 °F (31 °C) 91 °F (33 °C) 95 °F (35 °C) 99 °F (37 °C) 103 °F (39 °C) 108 °F (42 °C) 113 °F (45 °C) 118 °F (48 °C) 124 °F (51 °C) 131 °F (55 °C) 137 °F (58 °C)
55% 81 °F (27 °C) 84 °F (29 °C) 86 °F (30 °C) 89 °F (32 °C) 93 °F (34 °C) 97 °F (36 °C) 101 °F (38 °C) 106 °F (41 °C) 112 °F (44 °C) 117 °F (47 °C) 124 °F (51 °C) 130 °F (54 °C) 137 °F (58 °C)
60% 82 °F (28 °C) 84 °F (29 °C) 88 °F (31 °C) 91 °F (33 °C) 95 °F (35 °C) 100 °F (38 °C) 105 °F (41 °C) 110 °F (43 °C) 116 °F (47 °C) 123 °F (51 °C) 129 °F (54 °C) 137 °F (58 °C)
65% 82 °F (28 °C) 85 °F (29 °C) 89 °F (32 °C) 93 °F (34 °C) 98 °F (37 °C) 103 °F (39 °C) 108 °F (42 °C) 114 °F (46 °C) 121 °F (49 °C) 128 °F (53 °C) 136 °F (58 °C)
70% 83 °F (28 °C) 86 °F (30 °C) 90 °F (32 °C) 95 °F (35 °C) 100 °F (38 °C) 105 °F (41 °C) 112 °F (44 °C) 119 °F (48 °C) 126 °F (52 °C) 134 °F (57 °C)
75% 84 °F (29 °C) 88 °F (31 °C) 92 °F (33 °C) 97 °F (36 °C) 103 °F (39 °C) 109 °F (43 °C) 116 °F (47 °C) 124 °F (51 °C) 132 °F (56 °C)
80% 84 °F (29 °C) 89 °F (32 °C) 94 °F (34 °C) 100 °F (38 °C) 106 °F (41 °C) 113 °F (45 °C) 121 °F (49 °C) 129 °F (54 °C)
85% 85 °F (29 °C) 90 °F (32 °C) 96 °F (36 °C) 102 °F (39 °C) 110 °F (43 °C) 117 °F (47 °C) 126 °F (52 °C) 135 °F (57 °C)
90% 86 °F (30 °C) 91 °F (33 °C) 98 °F (37 °C) 105 °F (41 °C) 113 °F (45 °C) 122 °F (50 °C) 131 °F (55 °C)
95% 86 °F (30 °C) 93 °F (34 °C) 100 °F (38 °C) 108 °F (42 °C) 117 °F (47 °C) 127 °F (53 °C)
100% 87 °F (31 °C) 95 °F (35 °C) 103 °F (39 °C) 112 °F (44 °C) 121 °F (49 °C) 132 °F (56 °C)
Key to colors:   Caution   Extreme caution   Danger   Extreme danger


For example, if the air temperature is 96 °F (36 °C) and the relative humidity is 65%, the heat index is 121 °F (49 °C)

Effects of the heat index (shade values) edit

 
Heat index for temperature in °C with shaded caution/danger ranges
Celsius Notes
27–32 °C Caution: fatigue is possible with prolonged exposure and activity. Continuing activity could result in heat cramps.
32–41 °C Extreme caution: heat cramps and heat exhaustion are possible. Continuing activity could result in heat stroke.
41–54 °C Danger: heat cramps and heat exhaustion are likely; heat stroke is probable with continued activity.
over 54 °C Extreme danger: heat stroke is imminent.

Exposure to full sunshine can increase heat index values by up to 8 °C (14 °F).[11]

Formula edit

 
Comparison of NWS heat index values (circles) with the formula approximation (curves). In the SVG file, hover over a graph to highlight it.

There are many formulas devised to approximate the original tables by Steadman. Anderson et al. (2013),[12] NWS (2011), Jonson and Long (2004), and Schoen (2005) have lesser residuals in this order. The former two are a set of polynomials, but the third one is by a single formula with exponential functions.

The formula below approximates the heat index in degrees Fahrenheit, to within ±1.3 °F (0.7 °C). It is the result of a multivariate fit (temperature equal to or greater than 80 °F (27 °C) and relative humidity equal to or greater than 40%) to a model of the human body.[1][13] This equation reproduces the above NOAA National Weather Service table (except the values at 90 °F (32 °C) & 45%/70% relative humidity vary unrounded by less than ±1, respectively).

 
where
  • R = relative humidity (percentage value between 0 and 100)

 

The following coefficients can be used to determine the heat index when the temperature is given in degrees Celsius, where

  • HI = heat index (in degrees Celsius)
  • T = ambient dry-bulb temperature (in degrees Celsius)
  • R = relative humidity (percentage value between 0 and 100)

 

An alternative set of constants for this equation that is within ±3 °F (1.7 °C) of the NWS master table for all humidities from 0 to 80% and all temperatures between 70 and 115 °F (21–46 °C) and all heat indices below 150 °F (66 °C) is:

 
A further alternate is this:[14]
 
where
 
For example, using this last formula, with temperature 90 °F (32 °C) and relative humidity (RH) of 85%, the result would be: Heat index for 90 °F, RH 85% = 114.9.

Limitations edit

The heat index does not work well with extreme conditions, like supersaturation of air-- when the air is more than 100% saturated with water. David Romps, a physicist and climate scientist at the University of California, Berkeley and his graduate student Yi-Chuan Lu, found that the heat index was underestimating the severity of intense heat waves, such as 1995 Chicago heat wave. Other issues with the heat index include the unavailability of precise humidity data in many geographical regions, the assumption that the person is healthy, and the assumption that the person has easy access to water and shade.[15]

See also edit

References edit

  1. ^ a b c d Steadman, R. G. (July 1979). "The Assessment of Sultriness. Part I: A Temperature-Humidity Index Based on Human Physiology and Clothing Science". Journal of Applied Meteorology. 18 (7): 861–873. Bibcode:1979JApMe..18..861S. doi:10.1175/1520-0450(1979)018<0861:TAOSPI>2.0.CO;2.
  2. ^ Steadman, R. G. (July 1979). "The Assessment of Sultriness. Part II: Effects of Wind, Extra Radiation and Barometric Pressure on Apparent Temperature". Journal of Applied Meteorology. 18 (7): 874–885. Bibcode:1979JApMe..18..874S. doi:10.1175/1520-0450(1979)018<0874:TAOSPI>2.0.CO;2.
  3. ^ . Archived from the original on 2011-06-21. Retrieved 2008-02-01.
  4. ^ "Spring and Summer Hazards". Environment and Climate Changes. Government of Canada. Retrieved 2016-09-22.
  5. ^ a b c Heat index calculator and conversion table from iWeatherNet
  6. ^ Heat Index Campbell Scientific Inc. 2010-05-25 at the Wayback Machine (PDF file), CampbellSci.com.
  7. ^ Heat Index from the National Weather Service. "exposure to full sunshine can increase heat index values by up to 15°F."
  8. ^ "This Saudi city could soon face unprecedented and unlivable heat levels". Business Insider. Retrieved 2017-07-20.
  9. ^ Sherwood, S.C.; Huber, M. (25 May 2010). "An adaptability limit to climate change due to heat stress". Proc. Natl. Acad. Sci. U.S.A. 107 (21): 9552–5. Bibcode:2010PNAS..107.9552S. doi:10.1073/pnas.0913352107. PMC 2906879. PMID 20439769.
  10. ^ Dunne, John P.; Stouffer, Ronald J.; John, Jasmin G. (2013). "Heat stress reduces labor capacity under climate warming". Geophysical Fluid Dynamics Laboratory. 3 (6): 563. Bibcode:2013NatCC...3..563D. doi:10.1038/nclimate1827.
  11. ^ on the website of the Pueblo, CO United States National Weather Service.
  12. ^ Anderson, G. Brooke; Bell, Michelle L.; Peng, Roger D. (2013). "Methods to Calculate the Heat Index as an Exposure Metric in Environmental Health Research". Environmental Health Perspectives. 121 (10): 1111–1119. doi:10.1289/ehp.1206273. PMC 3801457. PMID 23934704.
  13. ^ Lans P. Rothfusz. "The Heat Index 'Equation' (or, More Than You Ever Wanted to Know About Heat Index)", Scientific Services Division (NWS Southern Region Headquarters), 1 July 1990 [1]
  14. ^ Stull, Richard (2000). Meteorology for Scientists and Engineers, Second Edition. Brooks/Cole. p. 60. ISBN 9780534372149.
  15. ^ Barber, Gregory. "The US Is Measuring Extreme Heat Wrong". Wired. Retrieved 2022-09-21.

External links edit

  • Description of wind chill & apparent temperature Formulae in metric units
  • Heat Index Calculator Calculates both °F and °C
  • Current map of global heat index values

February 16, 2024
heat, index, heat, index, index, that, combines, temperature, relative, humidity, shaded, areas, posit, human, perceived, equivalent, temperature, would, feel, humidity, were, some, other, value, shade, example, when, temperature, with, relative, humidity, hea. The heat index HI is an index that combines air temperature and relative humidity in shaded areas to posit a human perceived equivalent temperature as how hot it would feel if the humidity were some other value in the shade For example when the temperature is 32 C 90 F with 70 relative humidity the heat index is 41 C 106 F see table below The heat index is meant to describe experienced temperatures in the shade but it does not take into account heating from direct sunlight physical activity or cooling from wind The human body normally cools itself by evaporation of sweat High relative humidity reduces evaporation and cooling increasing discomfort and potential heat stress Different individuals perceive heat differently due to body shape metabolism level of hydration pregnancy or other physical conditions Measurement of perceived temperature has been based on reports of how hot subjects feel under controlled conditions of temperature and humidity Besides the heat index other measures of apparent temperature include the Canadian humidex the wet bulb globe temperature relative outdoor temperature and the proprietary RealFeel Contents 1 History 2 Definition 3 Meteorological considerations 4 Table of values 5 Effects of the heat index shade values 6 Formula 7 Limitations 8 See also 9 References 10 External linksHistory editThe heat index was developed in 1979 by Robert G Steadman 1 2 Like the wind chill index the heat index contains assumptions about the human body mass and height clothing amount of physical activity individual heat tolerance sunlight and ultraviolet radiation exposure and the wind speed Significant deviations from these will result in heat index values which do not accurately reflect the perceived temperature 3 In Canada the similar humidex a Canadian innovation introduced in 1965 4 is used in place of the heat index While both the humidex and the heat index are calculated using dew point the humidex uses a dew point of 7 C 45 F as a base whereas the heat index uses a dew point base of 14 C 57 F further explanation needed Further the heat index uses heat balance equations which account for many variables other than vapor pressure which is used exclusively in the humidex calculation A joint committee who formed by the United States and Canada to resolve differences has since been disbanded citation needed Definition editThe heat index of a given combination of dry bulb temperature and humidity is defined as the dry bulb temperature which would feel the same if the water vapor pressure were 1 6 kPa Quoting Steadman Thus for instance an apparent temperature of 24 C 75 F refers to the same level of sultriness and the same clothing requirements as a dry bulb temperature of 24 C 75 F with a vapor pressure of 1 6 kPa 1 This vapor pressure corresponds for example to an air temperature of 29 C 84 F and relative humidity of 40 in the sea level psychrometric chart and in Steadman s table at 40 RH the apparent temperature is equal to the true temperature between 26 31 C 79 88 F At standard atmospheric pressure 101 325 kPa this baseline also corresponds to a dew point of 14 C 57 F and a mixing ratio of 0 01 10 g of water vapor per kilogram of dry air 1 A given value of relative humidity causes larger increases in the heat index at higher temperatures For example at approximately 27 C 81 F the heat index will agree with the actual temperature if the relative humidity is 45 but at 43 C 109 F any relative humidity reading above 18 will make the heat index higher than 43 C 5 It has been suggested that the equation described is valid only if the temperature is 27 C 81 F or more 6 The relative humidity threshold below which a heat index calculation will return a number equal to or lower than the air temperature a lower heat index is generally considered invalid varies with temperature and is not linear The threshold is commonly set at an arbitrary 40 5 The heat index and its counterpart the humidex both take into account only two variables shade temperature and atmospheric moisture humidity thus providing only a limited estimate of thermal comfort Additional factors such as wind sunshine and individual clothing choices also affect perceived temperature these factors are parameterized as constants in the heat index formula Wind for example is assumed to be 5 knots 9 3 km h 5 Wind passing over wet or sweaty skin causes evaporation and a wind chill effect that the heat index does not measure The other major factor is sunshine standing in direct sunlight can add up to 15 F 8 3 C to the apparent heat compared to shade 7 There have been attempts to create a universal apparent temperature such as the wet bulb globe temperature relative outdoor temperature feels like or the proprietary RealFeel Meteorological considerations editOutdoors in open conditions as the relative humidity increases first haze and ultimately a thicker cloud cover develops reducing the amount of direct sunlight reaching the surface Thus there is an inverse relationship between maximum potential temperature and maximum potential relative humidity Because of this factor it was once believed that the highest heat index reading actually attainable anywhere on Earth was approximately 71 C 160 F However in Dhahran Saudi Arabia on July 8 2003 the dew point was 35 C 95 F while the temperature was 42 C 108 F resulting in a heat index of 81 C 178 F 8 The human body requires evaporative cooling to prevent overheating Wet bulb temperature and Wet Bulb Globe Temperature are used to determine the ability of a body to eliminate excess heat A sustained wet bulb temperature of about 35 C 95 F can be fatal to healthy people at this temperature our bodies switch from shedding heat to the environment to gaining heat from it 9 Thus a wet bulb temperature of 35 C 95 F is the threshold beyond which the body is no longer able to adequately cool itself 10 Table of values editThe table below is from the U S National Oceanic and Atmospheric Administration The columns begin at 80 F 27 C but there is also a heat index effect at 79 F 26 C and similar temperatures when there is high humidity NOAA national weather service heat index Tempera tureRelative humidity 80 F 27 C 82 F 28 C 84 F 29 C 86 F 30 C 88 F 31 C 90 F 32 C 92 F 33 C 94 F 34 C 96 F 36 C 98 F 37 C 100 F 38 C 102 F 39 C 104 F 40 C 106 F 41 C 108 F 42 C 110 F 43 C 40 80 F 27 C 81 F 27 C 83 F 28 C 85 F 29 C 88 F 31 C 91 F 33 C 94 F 34 C 97 F 36 C 101 F 38 C 105 F 41 C 109 F 43 C 114 F 46 C 119 F 48 C 124 F 51 C 130 F 54 C 136 F 58 C 45 80 F 27 C 82 F 28 C 84 F 29 C 87 F 31 C 89 F 32 C 93 F 34 C 96 F 36 C 100 F 38 C 104 F 40 C 109 F 43 C 114 F 46 C 119 F 48 C 124 F 51 C 130 F 54 C 137 F 58 C 50 81 F 27 C 83 F 28 C 85 F 29 C 88 F 31 C 91 F 33 C 95 F 35 C 99 F 37 C 103 F 39 C 108 F 42 C 113 F 45 C 118 F 48 C 124 F 51 C 131 F 55 C 137 F 58 C 55 81 F 27 C 84 F 29 C 86 F 30 C 89 F 32 C 93 F 34 C 97 F 36 C 101 F 38 C 106 F 41 C 112 F 44 C 117 F 47 C 124 F 51 C 130 F 54 C 137 F 58 C 60 82 F 28 C 84 F 29 C 88 F 31 C 91 F 33 C 95 F 35 C 100 F 38 C 105 F 41 C 110 F 43 C 116 F 47 C 123 F 51 C 129 F 54 C 137 F 58 C 65 82 F 28 C 85 F 29 C 89 F 32 C 93 F 34 C 98 F 37 C 103 F 39 C 108 F 42 C 114 F 46 C 121 F 49 C 128 F 53 C 136 F 58 C 70 83 F 28 C 86 F 30 C 90 F 32 C 95 F 35 C 100 F 38 C 105 F 41 C 112 F 44 C 119 F 48 C 126 F 52 C 134 F 57 C 75 84 F 29 C 88 F 31 C 92 F 33 C 97 F 36 C 103 F 39 C 109 F 43 C 116 F 47 C 124 F 51 C 132 F 56 C 80 84 F 29 C 89 F 32 C 94 F 34 C 100 F 38 C 106 F 41 C 113 F 45 C 121 F 49 C 129 F 54 C 85 85 F 29 C 90 F 32 C 96 F 36 C 102 F 39 C 110 F 43 C 117 F 47 C 126 F 52 C 135 F 57 C 90 86 F 30 C 91 F 33 C 98 F 37 C 105 F 41 C 113 F 45 C 122 F 50 C 131 F 55 C 95 86 F 30 C 93 F 34 C 100 F 38 C 108 F 42 C 117 F 47 C 127 F 53 C 100 87 F 31 C 95 F 35 C 103 F 39 C 112 F 44 C 121 F 49 C 132 F 56 C Key to colors Caution Extreme caution Danger Extreme danger For example if the air temperature is 96 F 36 C and the relative humidity is 65 the heat index is 121 F 49 C Effects of the heat index shade values edit nbsp Heat index for temperature in C with shaded caution danger rangesCelsius Notes27 32 C Caution fatigue is possible with prolonged exposure and activity Continuing activity could result in heat cramps 32 41 C Extreme caution heat cramps and heat exhaustion are possible Continuing activity could result in heat stroke 41 54 C Danger heat cramps and heat exhaustion are likely heat stroke is probable with continued activity over 54 C Extreme danger heat stroke is imminent Exposure to full sunshine can increase heat index values by up to 8 C 14 F 11 Formula edit nbsp Comparison of NWS heat index values circles with the formula approximation curves In the SVG file hover over a graph to highlight it There are many formulas devised to approximate the original tables by Steadman Anderson et al 2013 12 NWS 2011 Jonson and Long 2004 and Schoen 2005 have lesser residuals in this order The former two are a set of polynomials but the third one is by a single formula with exponential functions The formula below approximates the heat index in degrees Fahrenheit to within 1 3 F 0 7 C It is the result of a multivariate fit temperature equal to or greater than 80 F 27 C and relative humidity equal to or greater than 40 to a model of the human body 1 13 This equation reproduces the above NOAA National Weather Service table except the values at 90 F 32 C amp 45 70 relative humidity vary unrounded by less than 1 respectively H I c 1 c 2 T c 3 R c 4 T R c 5 T 2 c 6 R 2 c 7 T 2 R c 8 T R 2 c 9 T 2 R 2 displaystyle mathrm HI c 1 c 2 T c 3 R c 4 TR c 5 T 2 c 6 R 2 c 7 T 2 R c 8 TR 2 c 9 T 2 R 2 nbsp where HI heat index in degrees Fahrenheit T ambient dry bulb temperature in degrees Fahrenheit R relative humidity percentage value between 0 and 100 c 1 42 379 c 2 2 049 015 23 c 3 10 143 331 27 c 4 0 224 755 41 c 5 6 837 83 10 3 c 6 5 481 717 10 2 c 7 1 228 74 10 3 c 8 8 5282 10 4 c 9 1 99 10 6 textstyle begin aligned c 1 amp 42 379 amp c 2 amp 2 049 015 23 amp c 3 amp 10 143 331 27 c 4 amp 0 224 755 41 amp c 5 amp 6 837 83 times 10 3 amp c 6 amp 5 481 717 times 10 2 c 7 amp 1 228 74 times 10 3 amp c 8 amp 8 5282 times 10 4 amp c 9 amp 1 99 times 10 6 end aligned nbsp The following coefficients can be used to determine the heat index when the temperature is given in degrees Celsius whereHI heat index in degrees Celsius T ambient dry bulb temperature in degrees Celsius R relative humidity percentage value between 0 and 100 c 1 8 784 694 755 56 c 2 1 611 394 11 c 3 2 338 548 838 89 c 4 0 146 116 05 c 5 0 012 308 094 c 6 0 016 424 827 7778 c 7 2 211 732 10 3 c 8 7 2546 10 4 c 9 3 582 10 6 textstyle begin aligned c 1 amp 8 784 694 755 56 amp c 2 amp 1 611 394 11 amp c 3 amp 2 338 548 838 89 c 4 amp 0 146 116 05 amp c 5 amp 0 012 308 094 amp c 6 amp 0 016 424 827 7778 c 7 amp 2 211 732 times 10 3 amp c 8 amp 7 2546 times 10 4 amp c 9 amp 3 582 times 10 6 end aligned nbsp An alternative set of constants for this equation that is within 3 F 1 7 C of the NWS master table for all humidities from 0 to 80 and all temperatures between 70 and 115 F 21 46 C and all heat indices below 150 F 66 C is c 1 0 363 445 176 c 2 0 988 622 465 c 3 4 777 114 035 c 4 0 114 037 667 c 5 8 502 08 10 4 c 6 2 071 6198 10 2 c 7 6 876 78 10 4 c 8 2 749 54 10 4 c 9 0 displaystyle begin aligned c 1 amp 0 363 445 176 amp c 2 amp 0 988 622 465 amp c 3 amp 4 777 114 035 c 4 amp 0 114 037 667 amp c 5 amp 8 502 08 times 10 4 amp c 6 amp 2 071 6198 times 10 2 c 7 amp 6 876 78 times 10 4 amp c 8 amp 2 749 54 times 10 4 amp c 9 amp 0 end aligned nbsp A further alternate is this 14 H I c 1 c 2 T c 3 R c 4 T R c 5 T 2 c 6 R 2 c 7 T 2 R c 8 T R 2 c 9 T 2 R 2 c 10 T 3 c 11 R 3 c 12 T 3 R c 13 T R 3 c 14 T 3 R 2 c 15 T 2 R 3 c 16 T 3 R 3 displaystyle begin aligned mathrm HI amp c 1 c 2 T c 3 R c 4 TR c 5 T 2 c 6 R 2 c 7 T 2 R c 8 TR 2 c 9 T 2 R 2 amp quad c 10 T 3 c 11 R 3 c 12 T 3 R c 13 TR 3 c 14 T 3 R 2 c 15 T 2 R 3 c 16 T 3 R 3 end aligned nbsp wherec 1 16 923 c 2 0 185 212 c 3 5 379 41 c 4 0 100 254 c 5 9 416 95 10 3 c 6 7 288 98 10 3 c 7 3 453 72 10 4 c 8 8 149 71 10 4 c 9 1 021 02 10 5 c 10 3 8646 10 5 c 11 2 915 83 10 5 c 12 1 427 21 10 6 c 13 1 974 83 10 7 c 14 2 184 29 10 8 c 15 8 432 96 10 10 c 16 4 819 75 10 11 displaystyle begin aligned c 1 amp 16 923 amp c 2 amp 0 185 212 amp c 3 amp 5 379 41 amp c 4 amp 0 100 254 c 5 amp 9 416 95 times 10 3 amp c 6 amp 7 288 98 times 10 3 amp c 7 amp 3 453 72 times 10 4 amp c 8 amp 8 149 71 times 10 4 c 9 amp 1 021 02 times 10 5 amp c 10 amp 3 8646 times 10 5 amp c 11 amp 2 915 83 times 10 5 amp c 12 amp 1 427 21 times 10 6 c 13 amp 1 974 83 times 10 7 amp c 14 amp 2 184 29 times 10 8 amp c 15 amp 8 432 96 times 10 10 amp c 16 amp 4 819 75 times 10 11 end aligned nbsp For example using this last formula with temperature 90 F 32 C and relative humidity RH of 85 the result would be Heat index for 90 F RH 85 114 9 Limitations editThe heat index does not work well with extreme conditions like supersaturation of air when the air is more than 100 saturated with water David Romps a physicist and climate scientist at the University of California Berkeley and his graduate student Yi Chuan Lu found that the heat index was underestimating the severity of intense heat waves such as 1995 Chicago heat wave Other issues with the heat index include the unavailability of precise humidity data in many geographical regions the assumption that the person is healthy and the assumption that the person has easy access to water and shade 15 See also editApparent temperature Thermal comfort Interplay of temperature and humidity Humidex Wet bulb temperature Wind chillReferences edit a b c d Steadman R G July 1979 The Assessment of Sultriness Part I A Temperature Humidity Index Based on Human Physiology and Clothing Science Journal of Applied Meteorology 18 7 861 873 Bibcode 1979JApMe 18 861S doi 10 1175 1520 0450 1979 018 lt 0861 TAOSPI gt 2 0 CO 2 Steadman R G July 1979 The Assessment of Sultriness Part II Effects of Wind Extra Radiation and Barometric Pressure on Apparent Temperature Journal of Applied Meteorology 18 7 874 885 Bibcode 1979JApMe 18 874S doi 10 1175 1520 0450 1979 018 lt 0874 TAOSPI gt 2 0 CO 2 How do they figure the heat index By Daniel Engber Slate Magazine Archived from the original on 2011 06 21 Retrieved 2008 02 01 Spring and Summer Hazards Environment and Climate Changes Government of Canada Retrieved 2016 09 22 a b c Heat index calculator and conversion table from iWeatherNet Heat Index Campbell Scientific Inc Archived 2010 05 25 at the Wayback Machine PDF file CampbellSci com Heat Index from the National Weather Service exposure to full sunshine can increase heat index values by up to 15 F This Saudi city could soon face unprecedented and unlivable heat levels Business Insider Retrieved 2017 07 20 Sherwood S C Huber M 25 May 2010 An adaptability limit to climate change due to heat stress Proc Natl Acad Sci U S A 107 21 9552 5 Bibcode 2010PNAS 107 9552S doi 10 1073 pnas 0913352107 PMC 2906879 PMID 20439769 Dunne John P Stouffer Ronald J John Jasmin G 2013 Heat stress reduces labor capacity under climate warming Geophysical Fluid Dynamics Laboratory 3 6 563 Bibcode 2013NatCC 3 563D doi 10 1038 nclimate1827 Heat Index on the website of the Pueblo CO United States National Weather Service Anderson G Brooke Bell Michelle L Peng Roger D 2013 Methods to Calculate the Heat Index as an Exposure Metric in Environmental Health Research Environmental Health Perspectives 121 10 1111 1119 doi 10 1289 ehp 1206273 PMC 3801457 PMID 23934704 Lans P Rothfusz The Heat Index Equation or More Than You Ever Wanted to Know About Heat Index Scientific Services Division NWS Southern Region Headquarters 1 July 1990 1 Stull Richard 2000 Meteorology for Scientists and Engineers Second Edition Brooks Cole p 60 ISBN 9780534372149 Barber Gregory The US Is Measuring Extreme Heat Wrong Wired Retrieved 2022 09 21 External links editDescription of wind chill amp apparent temperature Formulae in metric units Heat Index Calculator Calculates both F and C Current map of global heat index values Retrieved from https en wikipedia org w index php title Heat index amp oldid 1192992992, wikipedia, wiki, book, books, library,

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