Calculate the temperature and the density of atmospheric air at 3600 m altitude, when the field...

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...

On a warm summer day, a large mass of air (atmospheric pressure 1.01×105Pa) is heated by...

On a warm summer day, a large mass of air (atmospheric pressure 1.01×105Pa) is heated by the ground to a temperature of 26.0 ∘C and then begins to rise through the cooler surrounding air. 1.Calculate the temperature of the air mass when it has risen to a level at which atmospheric pressure is only 8.60×104 Pa . Assume that air is an ideal gas, with γ=1.40. (This rate of cooling for dry, rising air, corresponding to roughly 1 ∘C per...

Estimate the boiling point of water in Leadville, Colorado, elevation 3170 m. To do this, use...

Estimate the boiling point of water in Leadville, Colorado, elevation 3170 m. To do this, use the barometric formula relating pressure and altitude: P=P0×10−Mgh/(2.303RT) (where P = pressure in atm; P0 = 1 atm; g = acceleration due to gravity; molar mass of air, M= 0.02896 kg mol−1 ; R = 8.3145 J mol−1 K−1; and T is the Kelvin temperature). Assume the air temperature is 10.0 ∘C and that ΔHvap= 41 kJ mol−1 H2O.

If the molecular weight of air is 28.9, what is the density of air at atmospheric...

If the molecular weight of air is 28.9, what is the density of air at atmospheric pressure and a temperature of 368.7 K? 1 atm = 1.013×105 N/m2, the mass of a proton is 1.67262 × 10?27 kg , Avogadro’s number is 6.02214 × 1023 mol?1 and k = 1.38065 × 10?23 N · m/K . Answer in units of kg/m3.

The atmospheric pressure, P, decreases exponentially with altitude, h. Suppose the air pressure is 101.3 kPa...

The atmospheric pressure, P, decreases exponentially with altitude, h. Suppose the air pressure is 101.3 kPa at sea level, and the air pressure at the peak of Mount Everest (altitude of 8848 m, the highest point on Earth) is 33.7 kPa. a. Find the rate of change of atmospheric pressure with respect to altitude at sea level. b. Find the air pressure on the surface of Dead Sea (altitude of 420 m below sea level, the lowest point on earth)....

At an altitude of 11000 m (a typical cruising altitude for a jet airliner), the air...

At an altitude of 11000 m (a typical cruising altitude for a jet airliner), the air temperature is -54.0 ∘C and the air density is 0.410 kg/m3 . What is the pressure of the atmosphere at that altitude? (Note: The temperature at this altitude is not the same as at the surface of the earth, so the equation P=P0exp(−MgyRT) doesn't apply.)

Question 4 (a) The density of a gas can be calculated using p = ρRT/M ....

Question 4 (a) The density of a gas can be calculated using p = ρRT/M . Derive this equation using pV = nRT where p = pressure, V = volume, n = moles, T = temperature, R = gas constant, ρ = density, M = molar mass (See Reader). (b) Calculate the density of air at 150 oC and atmospheric pressure assuming a composition (by volume) of 21% oxygen (O2), 78.03% nitrogen (N2) and 0.97% argon (Ar). (c) Convert an...

a) Calculate the density of CO2 gas at a pressure of 50 barg and a temperature...

a) Calculate the density of CO2 gas at a pressure of 50 barg and a temperature of 100°C, assuming if i) ideal gas behaviour, and ii) compressibility factor of 0.877. b) Calculate the speed of sound in CO2 at 100°C. c) In a carbon sequestration scheme, CO2 is sent to storage in a pipe of inner diameter of 10.0 cm that is operating isothermally at 100°C. The flow is choked when the pressure is 50 barg. Calculate the mass flowrate...

Given: an atmospheric layer. Height is 5650 m, temperature is -61◦C, pressure is 515 hPa, density...

Given: an atmospheric layer. Height is 5650 m, temperature is -61◦C, pressure is 515 hPa, density is 0.678 kg m−3 , constant vertical velocity of 9.8 cm s−1 . Over 20 minutes, atmospheric flow between the 5650 m and 7745 m surfaces generates layer mean temperature advection of 1.9◦C hr−1 . Calculate the pressure for the 5650 m level after the 20 minutes have passed. With the assumption that atmospheric flow is geostrophic.

We consider a hot-air balloon of mass 262 kg (basket and envelope). The spherical envelope of...

We consider a hot-air balloon of mass 262 kg (basket and envelope). The spherical envelope of the balloon has a diameter of 17 m when fully inflated. To what temperature (in °C) must the enclosed air be heated for the balloon to carry five standard men? Assume the surrounding air is at 20°C and is treated as an ideal gas. Use 29 g/mol for the molar mass of air. (Assume the mass of each standard man is 70 kg.) PLZZ...