Suppose the saturated adiabatic lapse rate is 0.6 oC/100 m, the dry adiabatic lapse rate is 1 oC/100 m, what is the difference between dry adiabatic lapse rate and the saturated adiabatic lapse rate over 1,000 meters?
The saturated adiabatic lapse rate is (over 100 m)
changing to (over 1000 m)
The dry adiabatic lapse rate is (over 100 m)
changing to (over 1000 m)
The difference is therefore (over 1000 m)
Suppose the saturated adiabatic lapse rate is 0.6 oC/100 m, the dry adiabatic lapse rate is...
X (h 2 km) Saturated adiabatic Dry adiabatic 25 C (h 1 km) Y (h 1 km) Z (h 0 km) Calculate the temperatures for the three points indicated on the diagram. [standardized saturated adiabatic lapse rate = 5°C/km] [the color of the arrows are only signify something about the air temperature and have no other meaning; however, the colors do not correspond to any particular temperature so do not try to set specific temperatures to a single arrow color]...
Assuming an adiabatic lapse rate, what is the temperature at 185 m above the ground, if the ground temperature is 34 C (answer to two decimal places)?
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...
Please describe which lapse rate FOR each of a,b,c...etc. some may have both dry or wet and environmental Expert Q&A Done Which lapse rate (dry, wet, environmental) or combination of lapse rates are described in each of the following statements: (6 points) A. Air temperatures taken by a radiosonde as it ascends the stratosphere. B. Temperature of saturated air as it is forced over a mountain. C. Temperature of unsaturated air forced over a mountain. D. Temperature of unsaturated air...
6. Refrigerant-134a enters an adiabatic compressor as saturated vapor at 100 kPa at a rate of 0.7 m3/min and exits at 1 MPa pressure. If the isentropic efficiency of the compressor is 87%, determine (a) the temperature of the refrigerant at the exit of the compressor, (b) the power input (in kW), and (c) the rate of entropy generation during this process.
The adiabatic process uses specific numbers, or rates, to decrease a parcel’s temperature and dew point temperature. Those rates are: - Unsaturated air will decrease by 10 deg C for every 1 kilometer (km) of lift. This is called the dry adiabatic lapse rate. - Saturated air will decrease by 6 deg C for every km of lift. This is called the moist adiabatic lapse rate. - The parcel’s dew point temperature will decrease by 2 deg C for every...
Please Answer number 3 - 9 tue 4000 3S 20 TEmS 2. Calculate the average rate of temperature change for the environmental lapse rate. Express this rate of change per 1000 meters. Show your calculations. 18.6 C 26-189 4386°C 18°- 99 S 000m S o00 13 3. At sea level, a parcel of air has a temperature of 35 "C and a dew point temperature of 15 "C. Let's assume that this air is forced to rise. Plot the rising...
Which of the following listed locations has the highest precipitation? 12 13 1 15 10 a. 17 18 9 19 5,200 Kilometers 3 2 The clouds in the picture are clouds. Photo: Lin Wu Cirrus Cumulus Stratus Question 3 The lack of Coriolis Effect along the equator resulted no lasting wind along the equator. low pressure along the equator. upper rising air along the equator high temperature along the equator. Question 4 You will need the vapor pressure curve and...
1 MPa Isentropic Efficiency of a Compressor Refrigerant-134a enters an adiabatic compressor as a saturated vapor at 100kPa at a rate of 0.7 m/min and exits at 1-MPa pressure. The isentropic efficiency of the compressor is 87%. R-134a Compressor Isentropic Compressor Work hs-h 100 kPa sat. vapor Actual Compressor Work Determine the refrigerant properties at the inlet and outlet for an isentropic process. Actual 2s entropic procEss Inlet state Determine the actual isentropic enthalpy from the efficiency. (Ans: 289.71 J/kg)...
1. Practice with the Keynesian model algebra Suppose C = 100+ 0.6 * DI (In other words, A= 100 and MPC = 0.6); also, I = 250; X = 200; M = 100; G = 90; TR = 70; and t = 0.3. (a) Calculate equilibrium output. (b) Explain in words what would happen if output were above the level you calculated in (a). What would happen if output were below the equilibrium level? (c) Recompute equilibrium output assuming that...