Let’s say we have a bound spherical parcel of dry air. Its pressure is 772 mb, mass is 3.8 kg, and a spherical radius of 0.81 m. What is the temperature of this parcel?
Let’s say we have a bound spherical parcel of dry air. Its pressure is 772 mb,...
4. Let’s say we have a 9 kg air mass. It is warmed from 37F to 78F under a constant pressure of 605 mb. Determine: (Show all SI Units) (a) Heat absorbed by the air (b) Work done (c) Total change in internal energy
An air parcel consists of 400 g of dry air with temperature and pressure of 280 K and 900mb, respectively. During an isobaric process the volume of the parcel expands by 20%. What is the parcel's temperature after the expansion?
Let's say we have a 16 kg air mass. It is warmed from 34 F to 88 F under a constant pressure of 710 mb. Determine: (A) heat absorbed by the air (B) Work Done (C) Total change in internal energy. All work must be shown. Answers must be in standard SI units, in most simple form.
Suppose you have a spherical balloon filled with air at room temperature and 1.0 atm pressure; its radius is 17cm . you take the balloon in an airplane, where the pressure is 0.78 atm. If the temperature is unchanged, what's the balloon's new radius?
Suppose you have a spherical balloon filled with air at room temperature and 1.0 atm pressure; its radius is 8 cm . You take the balloon in an airplane, where the pressure is 0.88 atm. Part A If the temperature is unchanged, what's the balloon's new radius? (The answer is not 10.435 cm)
Let's say that we have a layer of air with an initial temperature of 0°C and a depth of 310 m. This parcel then flows over an expanse with a temperature of -3°C. If the initial dewpoint of the air is -1°C, how far across the ground must the air travel before advection fog first forms. Please give your answer in kilometers!!! You can assume smooth ground with a roughness of 0.002 m. Please tell me the following: What equation(s)...
Note in passing: We will consider that a parcel that is saturated (contains cloud droplets) will warm at the moist adiabatic rate (here, 5°C) when it sinks, until the cloud droplets evaporate. Continued descent will then produce warming at the dry adiabatic rate. This process is called a reversible moist adiabatic process. Suppose we have a cloudy parcel at a temperature of 10°C at 1km height. The parcel sinks to cloud base at 800 m height and then continues to...
The density of air at standard temperature and pressure (STP) is 1.20 kg/m3. If the density of helium is 0.179 kg/m3 inside a perfectly spherical balloon of radius 5.00 m, how much mass, in kg, could this balloon carry?
We consider a hot-air balloon of mass 231 kg (basket and envelope). The spherical envelope of the balloon has a diameter of 15 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.)
We consider a hot-air balloon of mass 226 kg (basket and envelope). The spherical envelope of the balloon has a diameter of 15 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.)