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
Join our experts at the Consumer Reports Test Track as they discuss cars, answer buying questions, and share insights on everything automotive.
…
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
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
Call them changemakers. Call them rule breakers. We call them Redefiners. And in this provocative podcast, we explore how daring leaders from across industries and around the globe are redefining their organizations—and themselves—to create extraordinary impact in today’s rapidly changing world. In each episode, Russell Reynolds Associates Leadership Advisor Hoda Tahoun and former CEO Clarke Murphy host engaging, purposeful conversations with leaders in and out of the business world who shar ...
…
continue reading
Audio home of The Jimquisition, featuring its lovely little podcast, Podquisition - starring Jim Sterling, Laura Kate, and Conrad Zimmerman!
…
continue reading
Under The Hood® Show. Syndicated across America since 1990 Americas' Favorite Car Talk Show! This Live Radio Show is here to help you get free Auto Repair Advice helping you to save money on Auto Repairs. The hosts take your calls about any Automotive Questions and help guide you to a Repair Solution. If you need Car Repair Help to Make Your Own Do It Yourself Auto Repairs or just need a few Automotive Hints to help when you visit a shop, the guys will help you. The guys work in the Automoti ...
…
continue reading
An independent radio station from Tel Aviv. For music lovers by music lovers.
…
continue reading
The traditional enterprise go-to-market motion is undergoing a transformational shift. B2B buyers are more sophisticated than ever, and operational efficiency is a key focus for every organization. One key function possesses a unique opportunity to shape the future of revenue generation: enablement. On this podcast, we’re bringing you the secrets, strategies, and tactics that successful enablement leaders are using to drive meaningful impact. The Enablement Edge is the go-to resource for sal ...
…
continue reading
Player FM - Podcast App
Go offline with the Player FM app!
Go offline with the Player FM app!
))
RFT 287: Atmospheric Stability
Manage episode 232461056 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:
The stability of the atmosphere depends on its ability to resist vertical motion. A stable atmosphere makes vertical movement difficult, and small vertical disturbances dampen out and disappear. In an unstable atmosphere, small vertical air movements tend to become larger, resulting in turbulent airflow and convective activity. Instability can lead to significant turbulence, extensive vertical clouds, and severe weather. Rising air expands and cools due to the decrease in air pressure as altitude increases. The opposite is true of descending air; as atmospheric pressure increases, the temperature of descending air increases as it is compressed. Adiabatic heating and adiabatic cooling are terms used to describe this temperature change.
The adiabatic process takes place in all upward and downward moving air. When air rises into an area of lower pressure, it expands to a larger volume. As the molecules of air expand, the temperature of the air lowers. As a result, when a parcel of air rises, pressure decreases, volume increases, and temperature decreases. When air descends, the opposite is true. The rate at which temperature decreases with an increase in altitude is referred to as its lapse rate. As air ascends through the atmosphere, the average rate of temperature change is 2 °C (3.5 °F) per 1,000 feet. Since water vapor is lighter than air, moisture decreases air density, causing it to rise. Conversely, as moisture decreases, air becomes denser and tends to sink. Since moist air cools at a slower rate, it is generally less stable than dry air since the moist air must rise higher before its temperature cools to that of the surrounding air. The dry adiabatic lapse rate (unsaturated air) is 3 °C (5.4 °F) per 1,000 feet. The moist adiabatic lapse rate varies from 1.1 °C to 2.8 °C (2 °F to 5 °F) per 1,000 feet. The combination of moisture and temperature determine the stability of the air and the resulting weather. Cool, dry air is very stable and resists vertical movement, which leads to good and generally clear weather. The greatest instability occurs when the air is moist and warm, as it is in the tropical regions in the summer. Typically, thunderstorms appear on a daily basis in these regions due to the instability of the surrounding air.
As air rises and expands in the atmosphere, the temperature decreases. There is an atmospheric anomaly that can occur; however, that changes this typical pattern of atmospheric behavior. When the temperature of the air rises with altitude, a temperature inversion exists. Inversion layers are commonly shallow layers of smooth, stable air close to the ground. The temperature of the air increases with altitude to a certain point, which is the top of the inversion. The air at the top of the layer acts as a lid, keeping weather and pollutants trapped below. If the relative humidity of the air is high, it can contribute to the formation of clouds, fog, haze, or smoke resulting in diminished visibility in the inversion layer. Surface-based temperature inversions occur on clear, cool nights when the air close to the ground is cooled by the lowering temperature of the ground. The air within a few hundred feet of the surface becomes cooler than the air above it. Frontal inversions occur when warm air spreads over a layer of cooler air, or cooler air is forced under a layer of warmer air.
From AC 006B:
Vertical Motion Effects on an Unsaturated Air Parcel. As a bubble or parcel of air ascends (rises), it moves into an area of lower pressure (pressure decreases with height). As this occurs, the parcel expands. This requires energy, or work, which takes heat away from the parcel, so the air cools as it rises. This is called an adiabatic process. The term adiabatic means that no heat transfer occurs into, or out of, the parcel. Air has low thermal conductivity, so transfer of heat by conduction is negligibly small.
The rate at which the parcel cools as it is lifted is called the lapse rate. The lapse rate of a rising, unsaturated parcel (air with relative humidity less than 100 percent) is approximately 3 °C per 1,000 feet (9.8 °C per kilometer). This is called the dry adiabatic lapse rate. This means for each 1,000-foot increase in elevation, the parcel’s temperature decreases by 3 °C. Concurrently, the dewpoint decreases approximately 0.5 °C per 1,000 feet (1.8 °C per kilometer). The parcel’s temperature-dewpoint spread decreases, while its relative humidity increases.
This process is reversible if the parcel remains unsaturated and, thus, does not lose any water vapor. A descending (subsiding) air parcel compresses as it moves into an area of higher pressure. The atmosphere surrounding the parcel does work on the parcel, and energy is added to the compressed parcel, which warms it. Thus, the temperature of a descending air parcel increases approximately 3 °C per 1,000 feet (9.8 °C per kilometer). Concurrently, the dewpoint increases approximately 0.5 °C per 1,000 feet (1.8 °C per kilometer). The parcel’s temperature-dewpoint spread increases, while its relative humidity decreases.
The parcel and the surrounding environmental air temperatures are then compared. If the lifted parcel is colder than the surrounding air, it will be denser (heavier) and sink back to its original level. In this case, the parcel is stable because it resists upward displacement. If the lifted parcel is the same temperature as the surrounding air, it will be the same density and remain at the same level. In this case, the parcel is neutrally stable. If the lifted parcel is warmer and, therefore, less dense (lighter) than the surrounding air, it will continue to rise on its own until it reaches the same temperature as its environment. This final case is an example of an unstable parcel. Greater temperature differences result in greater rates of vertical motion.
612 episodes
Share
Manage episode 232461056 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:
The stability of the atmosphere depends on its ability to resist vertical motion. A stable atmosphere makes vertical movement difficult, and small vertical disturbances dampen out and disappear. In an unstable atmosphere, small vertical air movements tend to become larger, resulting in turbulent airflow and convective activity. Instability can lead to significant turbulence, extensive vertical clouds, and severe weather. Rising air expands and cools due to the decrease in air pressure as altitude increases. The opposite is true of descending air; as atmospheric pressure increases, the temperature of descending air increases as it is compressed. Adiabatic heating and adiabatic cooling are terms used to describe this temperature change.
The adiabatic process takes place in all upward and downward moving air. When air rises into an area of lower pressure, it expands to a larger volume. As the molecules of air expand, the temperature of the air lowers. As a result, when a parcel of air rises, pressure decreases, volume increases, and temperature decreases. When air descends, the opposite is true. The rate at which temperature decreases with an increase in altitude is referred to as its lapse rate. As air ascends through the atmosphere, the average rate of temperature change is 2 °C (3.5 °F) per 1,000 feet. Since water vapor is lighter than air, moisture decreases air density, causing it to rise. Conversely, as moisture decreases, air becomes denser and tends to sink. Since moist air cools at a slower rate, it is generally less stable than dry air since the moist air must rise higher before its temperature cools to that of the surrounding air. The dry adiabatic lapse rate (unsaturated air) is 3 °C (5.4 °F) per 1,000 feet. The moist adiabatic lapse rate varies from 1.1 °C to 2.8 °C (2 °F to 5 °F) per 1,000 feet. The combination of moisture and temperature determine the stability of the air and the resulting weather. Cool, dry air is very stable and resists vertical movement, which leads to good and generally clear weather. The greatest instability occurs when the air is moist and warm, as it is in the tropical regions in the summer. Typically, thunderstorms appear on a daily basis in these regions due to the instability of the surrounding air.
As air rises and expands in the atmosphere, the temperature decreases. There is an atmospheric anomaly that can occur; however, that changes this typical pattern of atmospheric behavior. When the temperature of the air rises with altitude, a temperature inversion exists. Inversion layers are commonly shallow layers of smooth, stable air close to the ground. The temperature of the air increases with altitude to a certain point, which is the top of the inversion. The air at the top of the layer acts as a lid, keeping weather and pollutants trapped below. If the relative humidity of the air is high, it can contribute to the formation of clouds, fog, haze, or smoke resulting in diminished visibility in the inversion layer. Surface-based temperature inversions occur on clear, cool nights when the air close to the ground is cooled by the lowering temperature of the ground. The air within a few hundred feet of the surface becomes cooler than the air above it. Frontal inversions occur when warm air spreads over a layer of cooler air, or cooler air is forced under a layer of warmer air.
From AC 006B:
Vertical Motion Effects on an Unsaturated Air Parcel. As a bubble or parcel of air ascends (rises), it moves into an area of lower pressure (pressure decreases with height). As this occurs, the parcel expands. This requires energy, or work, which takes heat away from the parcel, so the air cools as it rises. This is called an adiabatic process. The term adiabatic means that no heat transfer occurs into, or out of, the parcel. Air has low thermal conductivity, so transfer of heat by conduction is negligibly small.
The rate at which the parcel cools as it is lifted is called the lapse rate. The lapse rate of a rising, unsaturated parcel (air with relative humidity less than 100 percent) is approximately 3 °C per 1,000 feet (9.8 °C per kilometer). This is called the dry adiabatic lapse rate. This means for each 1,000-foot increase in elevation, the parcel’s temperature decreases by 3 °C. Concurrently, the dewpoint decreases approximately 0.5 °C per 1,000 feet (1.8 °C per kilometer). The parcel’s temperature-dewpoint spread decreases, while its relative humidity increases.
This process is reversible if the parcel remains unsaturated and, thus, does not lose any water vapor. A descending (subsiding) air parcel compresses as it moves into an area of higher pressure. The atmosphere surrounding the parcel does work on the parcel, and energy is added to the compressed parcel, which warms it. Thus, the temperature of a descending air parcel increases approximately 3 °C per 1,000 feet (9.8 °C per kilometer). Concurrently, the dewpoint increases approximately 0.5 °C per 1,000 feet (1.8 °C per kilometer). The parcel’s temperature-dewpoint spread increases, while its relative humidity decreases.
The parcel and the surrounding environmental air temperatures are then compared. If the lifted parcel is colder than the surrounding air, it will be denser (heavier) and sink back to its original level. In this case, the parcel is stable because it resists upward displacement. If the lifted parcel is the same temperature as the surrounding air, it will be the same density and remain at the same level. In this case, the parcel is neutrally stable. If the lifted parcel is warmer and, therefore, less dense (lighter) than the surrounding air, it will continue to rise on its own until it reaches the same temperature as its environment. This final case is an example of an unstable parcel. Greater temperature differences result in greater rates of vertical motion.
612 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
Join our experts at the Consumer Reports Test Track as they discuss cars, answer buying questions, and share insights on everything automotive.
…
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
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
Call them changemakers. Call them rule breakers. We call them Redefiners. And in this provocative podcast, we explore how daring leaders from across industries and around the globe are redefining their organizations—and themselves—to create extraordinary impact in today’s rapidly changing world. In each episode, Russell Reynolds Associates Leadership Advisor Hoda Tahoun and former CEO Clarke Murphy host engaging, purposeful conversations with leaders in and out of the business world who shar ...
…
continue reading
Audio home of The Jimquisition, featuring its lovely little podcast, Podquisition - starring Jim Sterling, Laura Kate, and Conrad Zimmerman!
…
continue reading
Under The Hood® Show. Syndicated across America since 1990 Americas' Favorite Car Talk Show! This Live Radio Show is here to help you get free Auto Repair Advice helping you to save money on Auto Repairs. The hosts take your calls about any Automotive Questions and help guide you to a Repair Solution. If you need Car Repair Help to Make Your Own Do It Yourself Auto Repairs or just need a few Automotive Hints to help when you visit a shop, the guys will help you. The guys work in the Automoti ...
…
continue reading
An independent radio station from Tel Aviv. For music lovers by music lovers.
…
continue reading
The traditional enterprise go-to-market motion is undergoing a transformational shift. B2B buyers are more sophisticated than ever, and operational efficiency is a key focus for every organization. One key function possesses a unique opportunity to shape the future of revenue generation: enablement. On this podcast, we’re bringing you the secrets, strategies, and tactics that successful enablement leaders are using to drive meaningful impact. The Enablement Edge is the go-to resource for sal ...
…
continue reading
Player FM - Podcast App
Go offline with the Player FM app!
Go offline with the Player FM app!
