When temperature increases, humidity typically decreases. Warmer air can hold more moisture, so as the air's temperature rises, its capacity to hold water vapor also increases, resulting in a lower relative humidity. Conversely, when temperature drops, humidity tends to increase because cooler air can hold less moisture.
Temperature typically decreases when a gas changes into a liquid, a process known as condensation. This is because energy is released when gas particles lose kinetic energy and come closer together to form a liquid.
Heat transfer goes from an area of higher temperature to an area of lower temperature. This transfer can happen through conduction, convection, or radiation, depending on the medium through which heat is being transferred.
One degree Celsius is equivalent to one degree Kelvin as the two temperature scales have the same size degree. So, when Celsius goes up by one degree, Kelvin also goes up by one degree.
No, the balloon with the least amount of air will not necessarily go out faster. Factors such as wind speed and direction, temperature, and weight of the balloon will also affect the rate at which the balloon goes out.
When the temperature drops, the alcohol in the thermometer contracts and takes up less space. This results in the alcohol level appearing to go down in the thermometer.
Go to www.accuweather.com for info on humidity levels for arthritis.
The temperature would go from being in the 80s and 90s to the 60s and 50s due to the coldness of the polar air. The temperature would decrease. The humidity would decrease also because it goes from being warm and moist to cold and dry.
It can go either way.
The guitar goes out of tune quickly due to factors like changes in temperature, humidity, and the tension of the strings. These factors can cause the strings to stretch or contract, leading to the guitar going out of tune.
The dew point is a measure of the amount of water vapor in the atmosphere. As the temperature gets closer to the dew point, the humidity rises. When the temperature finally drops to the dew point (100% humidity), the the atmosphere is completely saturated with water, and it will start to rain (or snow, if the dew point is below freezing). Since the atmosphere is completely saturated when the temperature is at the dew point, it cannot go below the dew point.
it depends on the current humidity, if the humidity is high the water will have trouble evaporating because it has no where to go, temperature and atmospheric pressure also play some part.
The ability for the atmosphere to hold water depends on a couple of factors, most notably being temperature. The hotter it is the more water can be absorbed by the air. Absolute humidity then is the total amount of water vapor contained in the air regardless of temperature. Relative humidity is the ratio to the amount of water the air is able to hold at a given temperature compared to the amount of water vapor it currently has (its absolute humidity). Assuming absolute humidity remains the same, and the temperature drops, then relative humidity will go up, meaning if there was already enough water vapor in the air at the previous temperature you might end up sweating more because the lower temperature might not be able to evaporate the same amount of sweat off your body.
the temp goes down, the winds go up, and the pressure goes up...
With an indoor pool (not a spa) room air temperature should be maintained 2-5 degrees above the water temperature< with 50% or less humidity.
Most air has humidity. When there is humidity, then there is a dew point - a temperature - below which the humidity condenses into water droplets. If you are in an air-conditioned space (at equilibrium), your glasses are cool. You walk into a warmer zone - one which has a dew point above the temperature of your glasses - and you get condensation.
it goes up in 3's
The pellet, the copper part opposite the spring with the temperature on it, always goes "into" the engine. The spring end should face out.