# 10. Complete the following diagram using the appropriate adiabatic lapse rate to cool the parcel of ascending air (Hint: DALR = 5°C/0.5 km and WALR = 3°C/0.5 km). Assume there is a lifting mechanism
# 10. Complete the following diagram using the appropriate adiabatic lapse rate to cool the parcel...
An air parcel that has a temperature of 20 C and a dewpoint of 10 C at sea-level is forced to rise over a mountain that is 3 km high. Given the the appropriate MOIST ADIABATIC LAPSE rate is 5C/km, what would the temperature (in Celsius) of the air parcel be when it reaches the top of the mountain
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...
Weather question. 4). Consider the mountain below. An air parcel at the western base of the mountain has a temperature of 22 C and a dewpoint of 17 C. As the air ascends and descends, it will either cool (or warm in the case of descent) at the dry adiabatic lapse rate of -10 C/km, or at the moist adiabatic lapse rate of -6 C/km. Remember, the equation for the lapse rate is SudT/dz. (T -Tita)/(z.-Z.). Answer the following questions....
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...
CCS/ERTH 303: Weather & Climate Name: Dew (F) 46 5.7 Section 1: Expressing Humidity Complete the table below using the provided data collected at the NWS Station in Missoula, MT,on Ist September 2015. Use this table to select the correct answers in the next 5 questions. ** Ser your pressure to 1000 mb for all calculations on the websites, and round answers to nearest degree "F and the MR's to the nearest 0.1g/kg as you carry them alone. ** a...
Below you are given temperature data at several heights above the ground on a sunny day, acquired from a radiosonde launch. Height Above Ground (m) Temperature (°C) 0 28 500 22 1000 18 1500 14.5 2000 15.5 2500 13 3000 9 Calculate the environmental lapse rate for each of the five lowest layers, expressing your answer in °C/km. Remember that the lapse rate is defined as the rate of decrease of temperature with altitude. Thus, if temperature decreases with altitude,...
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...
please answer , will rate ! Complete the following mechanism by matching A-D with the appropriate letter below (E-N). Not all letters will be used. NaOH ni nie OH HO E H OH J M HA 1. K #B 2. E 3.1 4. H 5. M 6. L 7.) 8. G 9. F 10. N
QUESTION 4 (10 points) a. Using the isothermal transformation diagram for iron carbon alloy of eutectoid composition. Specify and sketch the resulting microstructure from the following heat treatments: (Assume that, in each case, the specimen begins at 760 C and that it attains a homogeneous austenite structure) (N.B. ATTACH THE T-T-T DIAGRAM SHEET WITH THE ANSWER SHEET) 11) Cool rapidly to 370 C, hold for 100 s, and then quench to room temperature. [2] Cool rapidly to 250 C, hold...
5-30 Air enters an adiabatic nozzle steadily at 300 kPa, 200°C, and 30 m/s and leaves at 100 kPa and 180 m/s. The inlet area of the nozzle is 80 cm². Determine (a) the mass flow rate through the nozzle, (b) the exit temperature of the air, and (c) the exit area of the nozzle. Answers: (a) 0.5304 kg/s, (b) 184.6°C, (c) 38.7 cm P = 300 kPa T, = 200°C Vi = 30 m/s A = 80 cm AIR...