"Temperature/Humidity Comfort Level "
Comfort Level Explanation
If the temperature is forecast to be above 32 degrees it is combined with humidity to calculate the apparent temperature. When the temperature is at or below 16 degrees it is combined with the wind speed to calculate the wind chill.
Dangerous heat index levels. This means that heat related illnesses, such as heatstroke, are a danger.
Temperature greater than 32c and Humidex greater than 54c
High heat index levels and heat related illnesses are possible. Heat stroke imminent.
Temperature greater than 32c and Humidex Greater than 40c
Dangerous conditions, exertion should be avoided.
Temperature greater than 32c and Humidex greater than 32c
Great discomfort, exertion should be minimal.
Temperature greater than 32c and Humidex greater than 27c
Humidex greater than 38c
Temperature between 32c and 38c
Mild temperatures and moderate levels of humidity.
Temperature between 26c and 32c
Conditions are favored by much of the population.
Temperature between 16c and 26c
Chilly temperatures are forecasted. A light layer of clothing is suggested.
Windchill less than 16c
Cold wind chill readings are forecast. Frost bite, and other cold related illnesses, are possible.
Windchill less than 5c
Very cold wind chill readings are forecast. Frostbite and other cold related illnesses are a bigger danger, especially for those who aren't knowledgeable about extreme cold. <
Windchill less than -18c
How The Body Reacts To Excess Heat
When blood is heated above 37? C (98.6? F), the human body attempts to lose the extra heat by losing water through the skin and sweat glands, altering the rate and depth of blood circulation and, as a last resort, by panting. As body temperature rises, the heart rate increases and blood vessels dilate to increase blood flow from the body's core to the skin's surface. There, the blood is circulated through tiny capillaries threading around the upper layers of skin, and some excess heat drains off into the hopefully cooler atmosphere. At the same time, water moves from the blood through the skin, a process we refer to as perspiration or sweating. About 90 percent of the body's heat is lost through the skin, and most of that is lost through perspiration. When the air temperature is greater than 37? C, heat can only be lost through sweating.
Sweating by itself, however, does nothing to cool the body unless the water is removed by evaporation. In order to evaporate the sweat from the body, heat energy is required to change liquid water into the vapour state: 540 calories of heat energy per gram of water to be exact. That heat of vaporization is contributed by the body to the water -- that is where the cooling comes from. However, some water vapour also condenses back onto the body returning those 540 calories per gram of heat in the process. If the rate of evaporation exceeds the rate of condensation, the body will cool. The concentration of water vapour in the air, the humidity, is a prime factor in determining the degree of evaporative cooling.
Those who inhabit the areas affected by both heat and humidity often wonder about the relative comfort of desert heat, which exceeds 40? C (104? F). The answer lies in the water vapour content of the air: the humidity. In a hot, dry environment, more heat can be lost through evaporation than regained through condensation and the body cools.
When the humidity is high, however, much of the heat lost is countered by an almost equal heat gain. Thus the cooling of the body is minimal, leading to overheating. And overheating can cause discomfort at the very least and death at the very worst. Continued loss of water and a variety of dissolved chemicals such as sodium chloride -- salt -- from the body, if not replenished, can cause dehydration and chemical imbalances. Dehydration depletes the body of water needed for sweating and thickens the blood, requiring more pressure to pump it through the body, thus straining the heart and bllod vessels. In addition, the increased heart rate and blood flow may harm or kill those with heart or circulatory diseases. Research on the effects of heat and humidity on humans has shown the severity of heat disorders increases with age. Conditions which cause heat cramps in a 16-year old may cause heat exhaustion in a 40-year old and heat stroke in someone over 60.
Giving Discomfort A Number
The danger posed by heat and humidity has lead biometeorologists to develop various discomfort indices in order to define the danger and alert the public. Canadian and American weather services issue heat warnings with their weather forecasts similar to the windchill warnings of winter. In winter we are concerned about too rapid heat loss; in the summer, too slow a cooling rate.
Because these indices are, to some degree, subjective, the level of discomfort or danger will depend on a person's age, health and physical condition, on the type and amount of clothing worn, and their activity level. Besides the temperature and humidity, weather conditions such as amount of sunshine and wind speed also will affect the "feel" of temperature and humidity.
The Canadian index, called Humidex, combines the temperature and humidity into one number which is intended to reflect perceived temperature. Here are the perceived conditions for a variety of Humidex values.
The Heat Index
In the United States forecasters use the Heat Index Apparent Temperature, more commonly known as the Heat Index, as their accepted measure of thermal discomfort. It is a simplification of an index developed by R.I. Steadman in 1979. Steadman originally included 20 factors in his index, but the American Heat Index is calculated only from temperature and relative humidity. Strong sunshine can increase the Heat Index value by up to 15 F. And when the air is very hot, strong winds can actually increase the body temperature rather than cool it.
The relationship between the Heat Index and heat disorders can be summarized as:
Tips For Enjoying Summer Heat
To best enjoy the heat of summer:
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