The View from Our Side of the Cockpit Door
…
continue reading
Content provided by George Nolly and Captain George Nolly. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by George Nolly and Captain George Nolly or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Similar to Ready For Takeoff - Turn Your Aviation Passion Into A Career
Let’s Drone Out is a light-hearted and chatty drone focused podcast. Recorded live and interactively every Thursday 8-9 pm UK time on YouTube, come join the interactive chat. Jack and his wife Tony, as well as the rest of the LDO crew are here to bring noobs and pros together. Tune in every Thursday at 8:00PM UK time for the latest on tech, events, news, interviews and a behind the scenes look into the hobby. LEGAL NOTICE: Any views expressed by any guests on this show are personal and may ...
…
continue reading
Ever wondered what makes great go-to-market leaders grow, even when the going gets tough? We have, too. And we’re on a mission to uncover the magic that makes that growth happen. This is Go-to-Market Magic, the show where we talk to go-to-market leaders and visionaries about the “aha!” moments they experience and the pivotal decisions they’ve made, all in the name of growth. And we’re not just talking about revenue growth that goes up and to the right — we’ll also discuss how they improve th ...
…
continue reading
Audio home of The Jimquisition, featuring its lovely little podcast, Podquisition - starring Jim Sterling, Laura Kate, and Conrad Zimmerman!
…
continue reading
The Autoblog Podcast is one of the oldest and most-listened to automotive podcasts anywhere. The show features a rotating panel of editors and guests hosted by Editor-in-Chief Greg Migliore. The gloves come off and the lively discussion has everything from the most important news of the week to the best and worst cars we're driving. The show traditionally wraps with the popular Spend My Money segment. With nearly 700 episodes, the podcast is a must-listen for automotive enthusiasts everywhere.
…
continue reading
Join our experts at the Consumer Reports Test Track as they discuss cars, answer buying questions, and share insights on everything automotive.
…
continue reading
CarCast is twice weekly automotive podcast hosted by Matt “The Motorator” D’Andria, former NFL and WWE superstar, Bill Goldberg, and Vice President Editorial & Editor-in-Chief at Edmunds.com, Alistair Weaver. CarCast explores all aspects of the automotive space from the performance aftermarket to new car buying and the future of the automotive industry. The guys answer your questions, offer advice and feature guests from the automotive industry and celebrity car enthusiasts.
…
continue reading
Biker Radio Rodcast is a podcast on motorcycling in India, celebrating her heroic riders, legendary mechanics and iconic builders through stories told by members of the community, one legend at a time. These are portraits in audio of the people who ride, fix and build motorcycles; their journey and their enlightening learnings from the road they have travelled on. Awarded The Whickers in the UK and with a BBC Sounds audio documentary to boot, the RODcast (Radio On Demand) is a proven example ...
…
continue reading
Montgomery & Co. is a weekly podcast where WNBA champion and part-owner of the Atlanta Dream Renee Montgomery is joined by her mother Bertela Montgomery, her sister Nicole Young and her wife Sirena Grace as they chart a unique path through the business world as four black and brown women keeping their family first at all times. Both insightful and compelling, this one-of-a-kind talk show combines interviews with some of the world’s top innovators & entrepreneurs with sports and culture conve ...
…
continue reading
The Partnership Economy explores the power of partnerships through candid conversations and stories with industry leaders. Our hosts, David A. Yovanno, CEO and Todd Crawford, Co-founder, of impact.com, unpack the future of partnerships as a lever for scale and an opportunity to put the consumer first.
…
continue reading
Player FM - Podcast App
Go offline with the Player FM app!
Go offline with the Player FM app!
))
RFT 205: Density Altitude
Manage episode 213032433 series 1016570
Content provided by George Nolly and Captain George Nolly. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by George Nolly and Captain George Nolly or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
From the Pilot's Handbook of Aeronautical Knowledge:
Density Altitude
SDP is a theoretical pressure altitude, but aircraft operate in a nonstandard atmosphere and the term density altitude is used for correlating aerodynamic performance in the nonstandard atmosphere. Density altitude is the vertical distance above sea level in the standard atmosphere at which a given density is to be found. The density of air has significant effects on the aircraft’s performance because as air becomes less dense, it reduces:
- Power because the engine takes in less air
- Thrust because a propeller is less efficient in thin air
- Lift because the thin air exerts less force on the airfoils
Density altitude is pressure altitude corrected for nonstandard temperature. As the density of the air increases (lower density altitude), aircraft performance increases; conversely as air density decreases (higher density altitude), aircraft performance decreases. A decrease in air density means a high density altitude; an increase in air density means a lower density altitude. Density altitude is used in calculating aircraft performance because under standard atmospheric conditions, air at each level in the atmosphere not only has a specific density, its pressure altitude and density altitude identify the same level.
The computation of density altitude involves consideration of pressure (pressure altitude) and temperature. Since aircraft performance data at any level is based upon air density under standard day conditions, such performance data apply to air density levels that may not be identical with altimeter indications. Under conditions higher or lower than standard, these levels cannot be determined directly from the altimeter.
Density altitude is determined by first finding pressure altitude, and then correcting this altitude for nonstandard temperature variations. Since density varies directly with pressure and inversely with temperature, a given pressure altitude may exist for a wide range of temperatures by allowing the density to vary. However, a known density occurs for any one temperature and pressure altitude. The density of the air has a pronounced effect on aircraft and engine performance. Regardless of the actual altitude of the aircraft, it will perform as though it were operating at an altitude equal to the existing density altitude.
Air density is affected by changes in altitude, temperature, and humidity. High density altitude refers to thin air, while low density altitude refers to dense air. The conditions that result in a high density altitude are high elevations, low atmospheric pressures, high temperatures, high humidity, or some combination of these factors. Lower elevations, high atmospheric pressure, low temperatures, and low humidity are more indicative of low density altitude.
Effect of Pressure on Density
Since air is a gas, it can be compressed or expanded. When air is compressed, a greater amount of air can occupy a given volume. Conversely, when pressure on a given volume of air is decreased, the air expands and occupies a greater space. At a lower pressure, the original column of air contains a smaller mass of air. The density is decreased because density is directly proportional to pressure. If the pressure is doubled, the density is doubled; if the pressure is lowered, the density is lowered. This statement is true only at a constant temperature.
Effect of Temperature on Density
Increasing the temperature of a substance decreases its density. Conversely, decreasing the temperature increases the density. Thus, the density of air varies inversely with temperature. This statement is true only at a constant pressure.
In the atmosphere, both temperature and pressure decrease with altitude and have conflicting effects upon density. However, a fairly rapid drop in pressure as altitude increases usually has a dominating effect. Hence, pilots can expect the density to decrease with altitude.
Effect of Humidity (Moisture) on Density
The preceding paragraphs refer to air that is perfectly dry. In reality, it is never completely dry. The small amount of water vapor suspended in the atmosphere may be almost negligible under certain conditions, but in other conditions humidity may become an important factor in the performance of an aircraft. Water vapor is lighter than air; consequently, moist air is lighter than dry air. Therefore, as the water content of the air increases, the air becomes less dense, increasing density altitude and decreasing performance. It is lightest or least dense when, in a given set of conditions, it contains the maximum amount of water vapor.
Humidity, also called relative humidity, refers to the amount of water vapor contained in the atmosphere and is expressed as a percentage of the maximum amount of water vapor the air can hold. This amount varies with temperature. Warm air holds more water vapor, while cold air holds less. Perfectly dry air that contains no water vapor has a relative humidity of zero percent, while saturated air, which cannot hold any more water vapor, has a relative humidity of 100 percent. Humidity alone is usually not considered an important factor in calculating density altitude and aircraft performance, but it is a contributing factor.
As temperature increases, the air can hold greater amounts of water vapor. When comparing two separate air masses, the first warm and moist (both qualities tending to lighten the air) and the second cold and dry (both qualities making it heavier), the first must be less dense than the second. Pressure, temperature, and humidity have a great influence on aircraft performance because of their effect upon density. There are no rules of thumb that can be easily applied, but the affect of humidity can be determined using several online formulas. In the first example, the pressure is needed at the altitude for which density altitude is being sought. Using Figure 4-2, select the barometric pressure closest to the associated altitude. As an example, the pressure at 8,000 feet is 22.22 "Hg. Using the National Oceanic and Atmospheric Administration (NOAA) website (www.srh.noaa.gov/ epz/?n=wxcalc_densityaltitude) for density altitude, enter the 22.22 for 8,000 feet in the station pressure window. Enter a temperature of 80° and a dew point of 75°. The result is a density altitude of 11,564 feet. With no humidity, the density altitude would be almost 500 feet lower.
610 episodes
Share
Manage episode 213032433 series 1016570
Content provided by George Nolly and Captain George Nolly. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by George Nolly and Captain George Nolly or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
From the Pilot's Handbook of Aeronautical Knowledge:
Density Altitude
SDP is a theoretical pressure altitude, but aircraft operate in a nonstandard atmosphere and the term density altitude is used for correlating aerodynamic performance in the nonstandard atmosphere. Density altitude is the vertical distance above sea level in the standard atmosphere at which a given density is to be found. The density of air has significant effects on the aircraft’s performance because as air becomes less dense, it reduces:
- Power because the engine takes in less air
- Thrust because a propeller is less efficient in thin air
- Lift because the thin air exerts less force on the airfoils
Density altitude is pressure altitude corrected for nonstandard temperature. As the density of the air increases (lower density altitude), aircraft performance increases; conversely as air density decreases (higher density altitude), aircraft performance decreases. A decrease in air density means a high density altitude; an increase in air density means a lower density altitude. Density altitude is used in calculating aircraft performance because under standard atmospheric conditions, air at each level in the atmosphere not only has a specific density, its pressure altitude and density altitude identify the same level.
The computation of density altitude involves consideration of pressure (pressure altitude) and temperature. Since aircraft performance data at any level is based upon air density under standard day conditions, such performance data apply to air density levels that may not be identical with altimeter indications. Under conditions higher or lower than standard, these levels cannot be determined directly from the altimeter.
Density altitude is determined by first finding pressure altitude, and then correcting this altitude for nonstandard temperature variations. Since density varies directly with pressure and inversely with temperature, a given pressure altitude may exist for a wide range of temperatures by allowing the density to vary. However, a known density occurs for any one temperature and pressure altitude. The density of the air has a pronounced effect on aircraft and engine performance. Regardless of the actual altitude of the aircraft, it will perform as though it were operating at an altitude equal to the existing density altitude.
Air density is affected by changes in altitude, temperature, and humidity. High density altitude refers to thin air, while low density altitude refers to dense air. The conditions that result in a high density altitude are high elevations, low atmospheric pressures, high temperatures, high humidity, or some combination of these factors. Lower elevations, high atmospheric pressure, low temperatures, and low humidity are more indicative of low density altitude.
Effect of Pressure on Density
Since air is a gas, it can be compressed or expanded. When air is compressed, a greater amount of air can occupy a given volume. Conversely, when pressure on a given volume of air is decreased, the air expands and occupies a greater space. At a lower pressure, the original column of air contains a smaller mass of air. The density is decreased because density is directly proportional to pressure. If the pressure is doubled, the density is doubled; if the pressure is lowered, the density is lowered. This statement is true only at a constant temperature.
Effect of Temperature on Density
Increasing the temperature of a substance decreases its density. Conversely, decreasing the temperature increases the density. Thus, the density of air varies inversely with temperature. This statement is true only at a constant pressure.
In the atmosphere, both temperature and pressure decrease with altitude and have conflicting effects upon density. However, a fairly rapid drop in pressure as altitude increases usually has a dominating effect. Hence, pilots can expect the density to decrease with altitude.
Effect of Humidity (Moisture) on Density
The preceding paragraphs refer to air that is perfectly dry. In reality, it is never completely dry. The small amount of water vapor suspended in the atmosphere may be almost negligible under certain conditions, but in other conditions humidity may become an important factor in the performance of an aircraft. Water vapor is lighter than air; consequently, moist air is lighter than dry air. Therefore, as the water content of the air increases, the air becomes less dense, increasing density altitude and decreasing performance. It is lightest or least dense when, in a given set of conditions, it contains the maximum amount of water vapor.
Humidity, also called relative humidity, refers to the amount of water vapor contained in the atmosphere and is expressed as a percentage of the maximum amount of water vapor the air can hold. This amount varies with temperature. Warm air holds more water vapor, while cold air holds less. Perfectly dry air that contains no water vapor has a relative humidity of zero percent, while saturated air, which cannot hold any more water vapor, has a relative humidity of 100 percent. Humidity alone is usually not considered an important factor in calculating density altitude and aircraft performance, but it is a contributing factor.
As temperature increases, the air can hold greater amounts of water vapor. When comparing two separate air masses, the first warm and moist (both qualities tending to lighten the air) and the second cold and dry (both qualities making it heavier), the first must be less dense than the second. Pressure, temperature, and humidity have a great influence on aircraft performance because of their effect upon density. There are no rules of thumb that can be easily applied, but the affect of humidity can be determined using several online formulas. In the first example, the pressure is needed at the altitude for which density altitude is being sought. Using Figure 4-2, select the barometric pressure closest to the associated altitude. As an example, the pressure at 8,000 feet is 22.22 "Hg. Using the National Oceanic and Atmospheric Administration (NOAA) website (www.srh.noaa.gov/ epz/?n=wxcalc_densityaltitude) for density altitude, enter the 22.22 for 8,000 feet in the station pressure window. Enter a temperature of 80° and a dew point of 75°. The result is a density altitude of 11,564 feet. With no humidity, the density altitude would be almost 500 feet lower.
610 episodes
All episodes
×
Welcome to Player FM!
Player FM is scanning the web for high-quality podcasts for you to enjoy right now. It's the best podcast app and works on Android, iPhone, and the web. Signup to sync subscriptions across devices.
Similar to Ready For Takeoff - Turn Your Aviation Passion Into A Career
The View from Our Side of the Cockpit Door
…
continue reading
Let’s Drone Out is a light-hearted and chatty drone focused podcast. Recorded live and interactively every Thursday 8-9 pm UK time on YouTube, come join the interactive chat. Jack and his wife Tony, as well as the rest of the LDO crew are here to bring noobs and pros together. Tune in every Thursday at 8:00PM UK time for the latest on tech, events, news, interviews and a behind the scenes look into the hobby. LEGAL NOTICE: Any views expressed by any guests on this show are personal and may ...
…
continue reading
Ever wondered what makes great go-to-market leaders grow, even when the going gets tough? We have, too. And we’re on a mission to uncover the magic that makes that growth happen. This is Go-to-Market Magic, the show where we talk to go-to-market leaders and visionaries about the “aha!” moments they experience and the pivotal decisions they’ve made, all in the name of growth. And we’re not just talking about revenue growth that goes up and to the right — we’ll also discuss how they improve th ...
…
continue reading
Audio home of The Jimquisition, featuring its lovely little podcast, Podquisition - starring Jim Sterling, Laura Kate, and Conrad Zimmerman!
…
continue reading
The Autoblog Podcast is one of the oldest and most-listened to automotive podcasts anywhere. The show features a rotating panel of editors and guests hosted by Editor-in-Chief Greg Migliore. The gloves come off and the lively discussion has everything from the most important news of the week to the best and worst cars we're driving. The show traditionally wraps with the popular Spend My Money segment. With nearly 700 episodes, the podcast is a must-listen for automotive enthusiasts everywhere.
…
continue reading
Join our experts at the Consumer Reports Test Track as they discuss cars, answer buying questions, and share insights on everything automotive.
…
continue reading
CarCast is twice weekly automotive podcast hosted by Matt “The Motorator” D’Andria, former NFL and WWE superstar, Bill Goldberg, and Vice President Editorial & Editor-in-Chief at Edmunds.com, Alistair Weaver. CarCast explores all aspects of the automotive space from the performance aftermarket to new car buying and the future of the automotive industry. The guys answer your questions, offer advice and feature guests from the automotive industry and celebrity car enthusiasts.
…
continue reading
Biker Radio Rodcast is a podcast on motorcycling in India, celebrating her heroic riders, legendary mechanics and iconic builders through stories told by members of the community, one legend at a time. These are portraits in audio of the people who ride, fix and build motorcycles; their journey and their enlightening learnings from the road they have travelled on. Awarded The Whickers in the UK and with a BBC Sounds audio documentary to boot, the RODcast (Radio On Demand) is a proven example ...
…
continue reading
Montgomery & Co. is a weekly podcast where WNBA champion and part-owner of the Atlanta Dream Renee Montgomery is joined by her mother Bertela Montgomery, her sister Nicole Young and her wife Sirena Grace as they chart a unique path through the business world as four black and brown women keeping their family first at all times. Both insightful and compelling, this one-of-a-kind talk show combines interviews with some of the world’s top innovators & entrepreneurs with sports and culture conve ...
…
continue reading
The Partnership Economy explores the power of partnerships through candid conversations and stories with industry leaders. Our hosts, David A. Yovanno, CEO and Todd Crawford, Co-founder, of impact.com, unpack the future of partnerships as a lever for scale and an opportunity to put the consumer first.
…
continue reading
Player FM - Podcast App
Go offline with the Player FM app!
Go offline with the Player FM app!
