The only way one can get the anointing water is by coming down to Scoan here in Nigeria to receive it or on the other hand find a trust worthy person here in Lagos that can get it for you and mail it to you. There are many fraudsters and scammers all over the internet claiming to be TB Joshua, some also claim to be the wise men while other claim to be Scoan officials demanding money from individuals to mail anointing water to them. Do not believe any of them they are all thieves, fraudster, scammers and impostors, once you send money to them they cut off conversations with you I know of many that have lost huge sum of monies to these con men so BEWARE.
What determines the water vapor capacity of air?
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The air's capacity for water vapor increases as air temperature increases. Air with a temperature of 30°C can hold more than three times as much water vapor as air at 10°C. Relative humidity varies significantly when the temperature changes, even when the actual amount of water vapor in the air remains the same.
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The maximum amount of water vapor that can be in the air depends on the air temperature. The amount of water vapor in the air as compared with the amount of water that the air could hold is called relative humidity. This amount of space in air that can hold water changes depending on the temperature and pressure.
Additionally, what are the two major factors that account for the amount of water vapor in the atmosphere? There are limits to the amount of water vapor that can be held by any parcel of air. A very important determinant of the amount of water vapor that can be held by the air is temperature. The warmer air is, the greater the quantity of water vapor it can hold.
Similarly, how do you calculate water vapor capacity?
Using the curve above, at 28oC the water vapor capacity of the air is about 25 g/kg (25 grams of water vapor per kilogram of air). So, the relative humidity = 20/25=0.80 or 80%. Use the saturation curve above and the ones in Figures 6-7 and 6-8 to calculate relative humidity.
How does the capacity of air hold water vapor change with temperature?
The higher the temperature, the more water vapor a volume of air is capable of holding. Therefore, any change in temperature alters the volumes water vapor capacity. As air warms, its capacity for holding water vapor increases; as it cools, the capacity decreases.
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