The air would be laden with moisture.
When relative humidity reaches 100 percent, it means the air is holding the maximum amount of water vapor it can. This often leads to the formation of fog, mist, or precipitation, as the air is too saturated to hold any more moisture.
Relative humidity can vary during rain, depending on factors such as temperature and amount of precipitation. Generally, during rain, relative humidity tends to be close to 100% due to the presence of moisture in the air from the rain.
Pollutants in the air can serve as condensation nuclei, promoting the formation of cloud droplets at lower humidity levels compared to clean air. This can result in clouds forming before humidity levels reach 100 percent. Additionally, pollutants like fine particles can absorb water, reducing the amount available for condensation, which can prevent humidity from reaching 100 percent.
Polluted air contains particulates and pollutants that can act as condensation nuclei, which helps water droplets to form at lower relative humidity levels than in clean air. This means that in polluted air, water vapor can condense into droplets at lower relative humidities, limiting the humidity from reaching 100 percent.
Relative humidity is the ratio of specific humidity to the overall capacity. So in this case it is 10/50, or 20 percent.
Saturated
The air will be ready for condensation. The introduction of nucleation centres or a small drop in temperature will result in condensation.
2%.
It is raining
relative humidity is 100 percent.
the result is 1.00, because relative abundance is just the percent abundance in decimal form. The percent abundance sum is 100%, therefore the answer is 1.00 because the decimal of 100% is 1.00
Maui's relative location is like Maui is north of molokini for exaple. (Not 100 percent accurate)
i dont know if you said the question right but 100 percent of 63 is 63
The average relative humidity on a rainy day would be closer to 100 percent humidity. Rain adds moisture to the air, increasing the humidity levels to near saturation point. This leads to a higher average relative humidity compared to a non-rainy day.
Same as usual, A as % of B = 100A/B, irrespective of relative magnitudes. 250% of 100 is 100 x 250/100 ie 250, which can be seen by inspection.
No, it is always less than one hundred percent.
the relative frequency of allele H is 68 percent!