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The higher the relative humidity is the lower rate of evaporation.
The relative humidity is higher.
Typically wet bulbs are used to give a heat-index or what it "feels like" outside. Because humans cool themselves by sweating, wet bulbs attempt to factor in humidity and wind speed to approximate the effective temperature while sweating. The wet bulb temperature is also used, together with the dry bulb temperature, to determine the relative humidity. If you know the relative humidity, you can calculate the difference with an equation given at: http:/en.wikipedia.org/wiki/Heat_index
The closer they are together the more humid it is.
The relation between temperature and pressure is known as Gay-Lussac's law, one of the gas laws. It states that the pressure exerted on a container's sides by an ideal gas is proportional to the absolute temperature of the gas.As an equation this is P=kTIn words as the pressure in sealed container goes up, the temperature goes up, or as temperature goes up pressure goes up.
Relative humidity work with the amount of moist and water vapor that is all together.and that how all the vapor that is all together and that the type of moist that what call the relative humidity.
When both come closer,relative humidity increases;When they are almost equal,condensation water vapour begins.
The higher the relative humidity is the lower rate of evaporation.
The relative humidity is higher.
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Typically wet bulbs are used to give a heat-index or what it "feels like" outside. Because humans cool themselves by sweating, wet bulbs attempt to factor in humidity and wind speed to approximate the effective temperature while sweating. The wet bulb temperature is also used, together with the dry bulb temperature, to determine the relative humidity. If you know the relative humidity, you can calculate the difference with an equation given at: http:/en.wikipedia.org/wiki/Heat_index
The coins could get discolored or dirty, but mild derivations in temperature or humidity will not bond them together.
its all about the amount of molecules rubbing together to form heat... bla bla bla...more pressure=more molecules
The closer they are together the more humid it is.
Yes, temperature is directly proportional to pressure. As pressure increases, temperature increases, hence the extremely high temperature at the earth's core. Actually, when air cools, its molecules huddle closer together. The air becomes more dense (higher pressure) and it sinks. temperature goes down=pressure goes up
Absolutely not ! They are from completely different countries - requiring different temperature ranges and humidity levels !
Liquified by high pressure and/or low temperature.