DGCA QUESTIONS BANK FOR PILOTS TEMPERATURE PRACTICE QUESTION TEMPERATURE MCQ QUESTION Practice question paper of Temperature 1 / 17 1. Convective activity over land in mid-latitudes is greatest in summer during the night and early morning winter in the afternoon. summer in the afternoon. winter during the night and early morning. Sun in afternoon In mid latitude is overhead which causes heat which leads to convective activity 2 / 17 2. Several physical processes contribute to atmospheric warming. Which of the following contribute the most? Absorption and vaporization. Absorption and evaporation. Convection and condensation. Solar radiation and conduction. Conduction: heat is physically transferred by molecules by contact , ground gets heated by sun rays and air very close to the ground gets heated by conduction,Convection in this process hot fluid is bodily xfered to the colder part of the fluid more than 70 % earth is covered by water hence convection is important 3 / 17 3. The temperature at FL 160 is -22°C. What will the temperature be at FL 90 if the ICAO standard lapse rate is applied? +4°C -8°C -4°C 0°C Temperature at fl160 is -22°cif you descend in troposphere temperature will increase 2°c per 1000 feet( lapse rate as per isa)fl160 tofl90descend is 7000 feetTemperature gained is 2×7=14°c add 14°c to -22°canswer is -8°c 4 / 17 4. The morning following a clear, calm night when the temperature has dropped to the dew point, is likely to produce a cold front haze good clear weather radiation fog Radiation fog is caused by radiation of the earth’s heat at night, and the subsequent conductive cooling of the air in contact with the ground to below dew point.If there is a light wind, then fog will form, in calm conditions the result will be the formation of dew. The fog is not usually more than a few hundred feet thick.Conditions necessary for radiation fog to form.Clear sky – to increase the rate of terrestrial radiation.High relative humidity – so that a little cooling will be enough to cause saturation and condensation.Light wind – of 2 – 8 kts to mix the layers of air causing turbulence so that droplets will be kept in suspension and so that warmer air from above can be brought into contact with the cold ground to thicken the fog. 5 / 17 5. The environmental lapse rate in an actual atmosphere has a fixed value of 2°C/1000 FT varies with time has a fixed value of 1°C/100m has a fixed value of 0.65°C/100m The average rate of cooling within a static atmosphere would be 0.65°C/100m (1.98°C per 1000ft.)However, in reality the environmental lapse rate varies significantly from day to day and season to season, especially in the lower layers of the atmosphere 6 / 17 6. An isothermal layer is a layer of air in which the temperature decreases with height at a constant rate increases with height at a constant rate remains constant with height increases with height A layer of atmosphere where the temperature remains same with increase in height is called isothermal example, just above the tropopause. 7 / 17 7. Around Paris on January 3rd at 1800 UTC, the surface temperature, under shelter, is 3°C. The sky is covered by 8 oktas of stratus. QNH is 1033 hPa. If the sky is covered all night, the minimum temperature of the night of January 3rd to January 4th should be slightly below +3°C significantly below 0°C. slightly above +3°C significantly above +3°C. Time in Paris is 1800 UTCLOCAL TIME IS 0400 PMAs per diurnal variation of temperatureFrom 15:00 LMT onwards, the temperature falls continuously until a little after sunrise. The lowest temperature occurs at about sunrise plus 30 minutes. (TMIN)it is past 1500 let by 1 hr so temperature will fall slightly below3°c 8 / 17 8. An inversion is a layer of air in which the temperature remains constant with height increases with height more than 1°C/100m decreases with height more than 1°C/100m increases with height Inversion is also called negative lapse rateWhere the temperature increases with an increase in height, then we have what is called an inversion. We have already seen that at night we can expect an inversion above the surface, but this can occur in many different ways. 9 / 17 9. An inversion is a decrease of pressure with height a decrease of temperature with height an increase of temperature with height an increase of pressure with height Inversion is also called negative lapse rateWhere the temperature increases with an increase in height, then we have what is called an inversion. We have already seen that at night we can expect an inversion above the surface, but this can occur in many different ways. 10 / 17 10. On a clear sky, continental ground surface, wind calm, the minimum temperature is reached approximately one hour before sunrise half an hour after sunrise half an hour before sunrise at the moment the sun rises As per diurnal variation of temperatureFrom 15:00 LMT onwards, the temperature falls continuously until a little after sunrise. The lowest temperature occurs at about sunrise plus 30 minutes. (TMIN) 11 / 17 11. The radiation of the sun heats the air in the troposphere only directly if no clouds are present the surface of the earth, which heats the air in the troposphere the air in the troposphere directly the water vapour in the air of the troposphere Solar radiation heats the ground and then Atmosphere is heated from the ground that is the reason why temperature reduces with height in troposphereNegative lapse rate in stratosphere:Inversion means increase in temperature with heightit occurs due to uv ray absorption by ozone 12 / 17 12. Which of the following is a common cause of ground or surface temperature inversion? Terrestrial radiation on a clear night with no or very light winds Warm air being lifted rapidly aloft, in the vicinity of mountainous terrain. The movement of colder air under warm air, or the movement of warm air over cold air. Heating of the air by subsidence Radiation, on a night of clear skies, will also result in a temperature inversion above the surface. This is called a Radiation Inversion. 13 / 17 13. The diurnal variation in temperature is least when the sky is clear and winds are weak clear and winds are strong overcast and winds are weak overcast and winds are strong wind and cloud cover will cause T max to be reduced and T min to be increased.WIND: wind will cause turbulent mixing of the warm air at the surface with cold air above, reducing T max. CLOUD: the solar radiation is reflected back by the cloud tops 14 / 17 14. What is the technical term for an increase in temperature with altitude? Advection Inversion Subsidence Adiabatic Inversion is also called negative lapse rateWhere the temperature increases with an increase in height, then we have what is called an inversion. We have already seen that at night we can expect an inversion above the surface, but this can occur in many different ways. 15 / 17 15. The diurnal variation in temperature is largest when the sky is clear and winds are weak clear and winds are strong overcast and winds are weak overcast and winds are strong wind and cloud cover will cause T max to be reduced and T min to be increased.WIND: wind will cause turbulent mixing of the warm air at the surface with cold air above, reducing T max. CLOUD: the solar radiation is reflected back by the cloud tops 16 / 17 16. . If you are flying at FL 100 in an air mass that is 10°C warmer than a standard atmosphere, what is the outside temperature likely to be? -10°C -15°C +5°C +15°C Lapse rate in isa -2°C per 1000 feet of climb And temperature is 15 ° C at msl climbing 10000 feet we reduce -2°C every 1000 feet hence temperature lost is -20°Cnow add this to 15° C( temperature at msl)result is -5°C add 10°c.We get 5°c 17 / 17 17. In the International Standard Atmosphere the decrease in temperature with height below 11 km is 0.6°C per 100m 0.65°C per 100m 1°C per 100m 0.5°C per 100m The ICAO ISA is defined as follows:-a MSL temperature of 15°Ca MSL pressure of 1013.25 hPaa MSL density of 1225 g/m3a lapse rate of 0.65°C/100m (1.98° C /1000 ft) up to 11 km (36,090 ft)a constant temperature of -56.5°C from 11 km (36,090ft) to 20 km (65,617 ft)an increase of temperature 0.1°C/100m (0.3°C /1000 ft), from 20 km (65,617ft) to 32 km (104,987 ft) Your score isThe average score is 0% 0% Restart quiz