On a summer day in Montreal, the pressure is 1 atm and the temperature is 32...

A weather forecaster reports that on a summer day the air temperature is 86°F, the pressure...

A weather forecaster reports that on a summer day the air temperature is 86°F, the pressure is 30 inHg and the dew point is 63°F. Find the following for the air a) Mole fraction of water in the air b) Relative humidity of the air c) Degrees of superheat of the air in °F d) Absolute humidity of the air

On a hot summer day, the temperature is 36°C, barometric pressure is 763 mm Hg, and...

On a hot summer day, the temperature is 36°C, barometric pressure is 763 mm Hg, and the relative humidity is 96%. An air conditioner draws in outside air, cools it to 18°C, and delivers it at a rate of 12500 liters/h(=525.6 mol/h). Calculate the(a) rate of moisture condensation (kg/h)(b) volumetric flow rate of the air drawn from the outside(feed air).

On a summer day, the air temperature is 35 C, and the relative humidity is 77%....

On a summer day, the air temperature is 35 C, and the relative humidity is 77%. (a) What is the humidity? (b) Overnight, as the air cools, at what temperature will the air begin to condense (i.e., what is the dew point?)

On a hot summer day in Washington, D.C., the temperature is 104°F, and the relative humidity...

On a hot summer day in Washington, D.C., the temperature is 104°F, and the relative humidity is 78%. How much water vapor does each cubic meter of air contain? ______kg

On a hot summer day, the density of air at atmospheric pressure at 34.5°C is 1.1242...

On a hot summer day, the density of air at atmospheric pressure at 34.5°C is 1.1242 kg/m3. (a) What is the number of moles contained in 1.00 m3 of an ideal gas at this temperature and pressure? mol (b) Avogadro's number of air molecules has a mass of 2.82 ✕ 10−2 kg. What is the mass of 1.00 m3 of air? (Assume air is an ideal gas.) kg (c) Does the value calculated in part (b) agree with the stated...

1. Homeostasis is involved with maintenance of A. body temperature B. blood pressure C. salt concentration...

1. Homeostasis is involved with maintenance of A. body temperature B. blood pressure C. salt concentration D. all of the above 2. Metabolic water A. is the water created during oxidation of food B. is the free water found in even dry seeds C. is the water lost during digestion of food D. none of the above 3. Evaporative cooling depends on A. cool water condensing on the skin's surface B. high external temperature at 100 percent humidity C. breaking...

On an uncomfortable summer day, the air is at 30.6°C (87°F) and 80% relative humidity. A...

On an uncomfortable summer day, the air is at 30.6°C (87°F) and 80% relative humidity. A laboratory air conditioner is to deliver 28.3 m^3/min of air at 12.8°C (55°F) in order to maintain the interior air at a comfortable temperature and humidity. Estimate the rate (in kg/min) at which water is condensed and the net tons of cooling required, where 1 ton of cooling = -12,000 BTU/h = -12,650 kJ/h.

Air at 95°F, 1 atm, and 10% relative humidity enters an evaporative cooler operating at steady...

Air at 95°F, 1 atm, and 10% relative humidity enters an evaporative cooler operating at steady state. The volumetric flow rate of the incoming air is 1765 ft3/min. Liquid water at 68°F enters the cooler and fully evaporates. Moist air exits the cooler at 70°F, 1 atm. There is no significant heat transfer between the device and its surroundings and kinetic and potential energy effects can be neglected. a)Determine the mass flow rate of the dry air in lb(dry air)/min....

In a low temperature drying system, air at 60°C and 10% Relative humidity passes over a...

In a low temperature drying system, air at 60°C and 10% Relative humidity passes over a bed of diced carrots at 20 kg-dry air/sec. The rate of water removal from the carrots Is measured by difference in total weight over time and found to be approximately .16 kg-water/sec. In the system described above, calculate the temperature and relative humidity of the air exiting the drying system.

4.1A membrane made of 0.1 mm thick soft rubber separates pure O2 at 1 atm and...

4.1A membrane made of 0.1 mm thick soft rubber separates pure O2 at 1 atm and 25oC from air at 1.2 atm pressure. Determine the mass flow rate of O2 through the membrane per unit area and the direction of flow. Molar flow rate of oxygen is given by: ???? = ???????? / ??? (????1 ? ????2 ) where S is solubility of oxygen in rubber. The mass diffusivity of oxygen in rubber at 298 K is DAB = 2.1...