Nature Of The Atmosphere

Question 2

What is Air made up of?

Answer 2

78% Nitrogen21% Oxygen1% Trace Gasses (Argon, Carbon Dioxide & traces of other gasses)

Question 3

Name the 4 atmospheric layers and their boundary names?

Answer 3

Troposphere - tropopause.
Stratosphere - stratopause.
Mesosphere - mesopause.
Thermosphere.

Question 4

How high is the Troposphere (tropopause)?

Answer 4

20,000ft (6km) over Northern and Southern Poles.48,000 feet (14.5 km) over the equatorial regions.

Question 5

How high is the Stratosphere (Stratopause)?

Answer 5

160,000 ft (50km)

Question 6

How does temperature change with altitude inside the troposphere?

Answer 6

Temperature decreases at a rate of about 2°Celsius every 1,000 feet of altitude gain.

Question 7

How does air pressure change with altitude inside the troposphere?

Answer 7

Pressure decreases at a rate of about 1 inch per 1,000 feet of altitude gain.

Question 8

Why is the location of the tropopause important?

Answer 8

It is commonly associated with the location of the jetstream and possible clear air turbulence.

Question 9

What is weather like inside the troposphere?

Answer 9

The vast majority of weather, clouds, storms, and temperature variances occur within this first layer of the atmosphere.

Question 10

What is weather like inside the stratosphere?

Answer 10

Little weather exists in this layer and the air remains stable.

Question 11

How high is the Mesosphere (mesopause)?

Answer 11

280,000 feet (85 km).

Question 12

What happens to temperature inside the Mesosphere?

Answer 12

It decreases rapidly with an increase in altitude and can be as cold as -90°C.

Question 13

At what altitude do the reactions of an average person start to become impaired due to oxygen levels?

Answer 13

10,000 ft and for some people as low as 5,000 ft.

Question 14

What are some of the symptoms of Oxygen deprivation?

Answer 14

Mild disorientation to total incapacitation, depending on body tolerance and altitude.

Question 15

How heavy is the atmosphere at sea level?

Answer 15

14.7 pounds/square inch

Question 16

The actual air pressure at a given place and time will differ with WHAT?

Answer 16

Altitude, Temperature, and Air Density.

Question 17

How is atmospheric pressure normally measured?

Answer 17

In inches of mercury (in. Hg.) by a mercurial barometer.

Question 18

Name the 2 types of barometer?

Answer 18

Mercurial barometerAneroid barometer

Question 19

What does ISA stand for?

Answer 19

International Standard Atmosphere

Question 20

Standard sea level pressure is defined as WHAT?

Answer 20

29.92 in. Hg. at 59°F (15°C).

Question 21

Atmospheric pressure is also reported in WHAT?

Answer 21

Millibar’s

Question 22

1 inch of mercury = approximately how many millibar’s?

Answer 22

34

Question 23

Standard sea level = how many millibars?

Answer 23

1013.2 millibars.

Question 24

Typical millibar pressure readings range from WHAT to WHAT millibars.

Answer 24

950.0 to 1040.0

Question 25

Tracking a pattern of rising pressure at a single weather station generally indicates the approach of WHAT?

Answer 25

fair weather

Question 26

Decreasing or rapidly falling pressure usually indicates approaching WHAT?

Answer 26

Bad weather and possibly, severe storms.

Question 27

As altitude increases, pressure diminishes, as the weight of the air column decreases. This decrease in pressure is otherwise referred to as WHAT?

Answer 27

(An increase in density altitude)

Question 28

At higher altitudes, with a decreased atmospheric pressure, relating to aircraft performance, WHAT 3 things are affected?

Answer 28

Takeoff and landing distances & climb rates.

Question 29

Air currents and wind are caused by WHAT?

Answer 29

Temperature changes the air density which changes air pressure.

Question 30

Clouds and precipitation (AKA weather) are caused by WHAT?

Answer 30

Motion in the atmosphere, combined with moisture.

Question 31

Vertical (rising or falling) air movement is referred to as WHAT?

Answer 31

Air Current’s.

Question 32

Horizontal air movement is referred to as WHAT?

Answer 32

Wind

Question 33

The movement of air around the surface of the Earth is called WHAT?

Answer 33

Atmospheric circulation.

Question 34

What causes atmospheric circulation?

Answer 34

Atmospheric circulation is caused by uneven heating of the Earth´s surface creating changes in air movement and atmospheric pressure.

Question 35

What is circulation theory?

Answer 35

Warm air rises in equatorial regions and sinks at polar regions.

Question 36

What modifies circulation theory?

Answer 36

Several forces but mainly the earths rotation.

Question 37

The force created by the rotation of the Earth is known as WHAT?

Answer 37

Coriolis force

Question 38

The Coriolis force deflects air in WHAT direction in the Northern Hemisphere.

Answer 38

To the right causing it to follow a curved path.

Question 39

Does the Coriolis force have the same effect across the globe?

Answer 39

No it is greatest at the poles, and diminishes to zero at the equator.

Question 40

The Coriolis force deflects air in WHAT direction in the Southern Hemisphere.

Answer 40

To the left causing it to follow a curved path.

Question 41

The speed of the Earth´s rotation causes the general flow to break up into HOW MANY distinct cells in each hemisphere?

Answer 41

3

Question 42

Friction forces due to the topography of the earth change both speed and direction of wind up to WHAT altitude?

Answer 42

2000 feet.

Question 43

Air flows from areas of WHAT pressure to WHAT pressure?

Answer 43

High to low.

Question 44

In the Northern Hemisphere, the flow of air from areas of high to low pressure is deflected to the right; producing a clockwise circulation around an area of high pressure.What is this clockwise circulation known as?

Answer 44

This is known as anti-cyclonic circulation.

Question 45

In the Northern Hemisphere, the flow of air toward areas of low pressure is deflected to the left; producing an anti-clockwise circulation.What is this anti-clockwise circulation known as?

Answer 45

Cyclonic circulation.

Question 46

Describe the air in a typical High-pressure system.

Answer 46

High-pressure systems are generally areas of dry, stable, descending air.

Question 47

Good aviation weather is typically associated with (WHAT) pressure systems.

Answer 47

High

Question 48

Name some ground surfaces that might give off large amounts of heat?

Answer 48

Plowed ground, rocks, sand, and barren land

Question 49

Name some surface types that might absorb and retain heat?

Answer 49

Water, trees, and other areas of vegetation.

Question 50

Define convective currents?

Answer 50

Uneven heating of the air creating small areas of local circulation.

Question 51

During low altitude flights, up drafts are likely to occur over what surface types?

Answer 51

Pavement’s or barren places

Question 52

During low altitude flights down drafts are most likely to occur over what surfaces?

Answer 52

Water or expansive areas of vegetation like a group of trees.

Question 53

Typically, turbulent conditions can be avoided by doing what?

Answer 53

Flying at higher altitudes, even above cumulus cloud layers.

Question 54

During the day, which heats faster, land or water?

Answer 54

Land

Question 55

What is a sea breeze and when does it occur?

Answer 55

Air coming in from the sea during the day to replace rising land air.

Question 56

What is a land breeze and when does it occur?

Answer 56

Air coming out to sea from the land during the night to replace rising sea air.

Question 57

If you have to approach a runway on a sunny day over a car park then a lake, what might happen?

Answer 57

You may rise over the car park and fall over the lake.

Question 58

Define wind shear?

Answer 58

A sudden, drastic change in windspeed and/or direction over a very small area

Question 59

Directional wind changes of 180° and speed changes of 50 knots or more are associated with WHAT?

Answer 59

Low-level wind shear.

Question 60

Low-level wind shear is commonly associated with WHAT?

Answer 60

Passing frontal systems, thunderstorms, and temperature inversions with strong upper level winds (greater than 25 knots).

Question 61

In general, the most severe type of low-level wind shear is associated with WHAT?

Answer 61

Convective precipitation or rain from thunderstorms.

Question 62

A microburst is a type of shear associated with WHAT type of weather?

Answer 62

Convective precipitation

Question 63

How big is a typical microburst?

Answer 63

Less than 1 mile horizontally and within 1,000 feet vertically.

Question 64

The lifespan of a typical microburst is HOW LONG?

Answer 64

About 15 minutes

Question 65

How fast can the downdrafts be, in a microburst?

Answer 65

Up to 6,000 feet per minute

Question 66

What does LLWAS stand for?

Answer 66

Low level wind shear alert system.

Question 67

When windspeeds differ by more than HOW FAST, a warning for wind shear is given to pilots.

Answer 67

15 knots.

Question 68

Is high pressure air more or less stable than low pressure air?

Answer 68

More stable than low presure air.

Question 69

Does low pressure air bring with it good or bad aviation weather?

Answer 69

Bad

Question 70

Why can a good understanding of high- and low-pressure wind patterns be of great help when planning a flight.

Answer 70

Because a pilot can take advantage of beneficial tailwinds

Question 71

When planning a flight from west to east, favorable winds would be encountered along WHICH side of a high-pressure system or WHAT side of a low-pressure system.

Answer 71

North side of HIGH pressure and South side of LOW pressure.

Question 72

On a flight from east to west the most favorable winds would be along WHICH side of a high-pressure system or WHICH side of a low-pressure system.

Answer 72

The southern side of a high-pressure system or the northern side of a low-pressure system.

Question 73

What are isobars?

Answer 73

Lines drawn on a weather chart to depict areas of equal pressure.

Question 74

On a weather chart, what do Isobars reveal?

Answer 74

The pressure gradient or change in pressure over distance.

Question 75

What do closely spaced Isobars mean?

Answer 75

A steep pressure gradient and strong winds.

Question 76

What do widely spaced Isobars mean?

Answer 76

A shallow pressure gradient and relatively light winds.

Question 77

On a weather chart, what is a High?

Answer 77

An area of high pressure surrounded by lower pressure.

Question 78

On a weather chart, what is a low?

Answer 78

A low is an area of low pressure surrounded by higher pressure.

Question 79

On a weather chart, what is a ridge?

Answer 79

A ridge is an elongated area of high pressure.

Question 80

On a weather chart, what is a trough?

Answer 80

A trough is an elongated area of low pressure.

Question 81

On a weather chart, what is a Col?

Answer 81

A col is the intersection between a ridge and a trough, or an area of neutrality between two highs or two lows.

Question 82

Generally, the wind 2,000 feet above the ground will be WHERE in relation to surface winds?

Answer 82

20° to 40° to the right of surface winds and more parallel to isobars.

Question 83

The stability of the atmosphere depends on its ability to resist WHAT?

Answer 83

Vertical motion

Question 84

What is Adiabatic Heating?

Answer 84

Air heating as it drops in altitude.

Question 85

What is Adiabatic cooling?

Answer 85

Air cooling as it rises in altitude.

Question 86

What happens to Pressure, Volume & Temperature when air rises?

Answer 86

Pressure decreases, Volume increases, and Temperature decreases.

Question 87

What happens to Pressure, Volume & Temperature when air falls?

Answer 87

Pressure increases, Volume decreases, and Temperature increases.

Question 88

What is Lapse rate?

Answer 88

The rate at which temperature decreases with an increase in altitude.

Question 89

As air ascends through the atmosphere, the average rate of temperature change is WHAT °C (WHAT°F) per 1,000 feet?

Answer 89

2°C (3.5°F)

Question 90

What is lighter, water vapor or air?

Answer 90

Water Vapor.

Question 91

What is the adiabatic lapse rate (°C/°F) of Dry (unsaturated) air per 1,000 feet?

Answer 91

3°C (5.4°F) per 1,000 feet.

Question 92

What does the moist adiabatic lapse rate vary from ?°C to ?°C (?°F to ?°F) per 1,000 feet?

Answer 92

1.1°C to 2.8°C (2°F to 5°F) per 1,000 feet.

Question 93

Cool, Dry air is likely to be which of the following?Stable or UnStable

Answer 93

Stable

Question 94

Moist, Warm air is likely to be which of the following?Stable or UnStable

Answer 94

UnStable

Question 95

What is an Inversion Layer?

Answer 95

A shallow layer of smooth, stable air close to the ground with air temperature rising with altitude.

Question 96

When are you most likely to find a surface based temperature inversion?

Answer 96

On clear, cool nights

Question 97

Describe a Frontal inversion?

Answer 97

When warm air spreads over a layer of cooler air, or cooler air is forced under a layer of warmer air.

Question 98

How much does air need to heat up to hold double the amount of moisture?

Answer 98

20°F

Question 99

Water is present in the atmosphere in three states, what are they?

Answer 99

Liquid, solid, and gaseous.

Question 100

As water changes from one state to another, an exchange of heat takes place. These changes occur through WHICH processes?

Answer 100

Evaporation, sublimation, condensation, deposition, melting, or freezing.

Question 101

Water vapor is only added into the atmosphere by the processes of WHAT and WHAT?

Answer 101

Evaporation and Sublimation.

Question 102

Define Evaporation?

Answer 102

Evaporation is the changing of liquid water to water vapor.

Question 103

Define the latent heat of evaporation?

Answer 103

Water vapor forming and absorbing heat from the nearest available source.

Question 104

Define Sublimation?

Answer 104

The changing of ice directly into water vapor.

Question 105

What is Relative Humidity?

Answer 105

The actual amount of moisture in the air compared to the total amount of moisture the air could hold at that temperature

Question 106

At sea level pressure, how many grams of water can a square meter of air hold at the following temperatures?10°C?20°C?30°C?

Answer 106

9g at 10°C17g at 20°C30g at 30°C

Question 107

Define Dewpoint?

Answer 107

The temperature at which air can hold no more moisture.

Question 108

When lifted, unsaturated air cools at a rate of (WHAT) per 1,000 feet

Answer 108

3°C/5.4°F

Question 109

When lifted, the dewpoint temperature decreases at a rate of (WHAT)°F per 1,000 feet

Answer 109

1°F

Question 110

When lifted, unsaturated air cools at a set rate and the dewpoint temperature decreases at a different rate. This results in a convergence of temperature and dewpoint at a rate of (WHAT)°F?

Answer 110

Convergence rate of 4.4°F.

Question 111

If you know the Temperature and Dewpoint, how can you work out the approximate height of the cloud base?

Answer 111

Temperature - DewPoint = Temperature Dewpoint Spread(TDS)

TDS÷Convergence Rate(4.4°F) = A

Ax1,000 feet = height of cloud base AGL

Question 112

There are four methods by which air can reach the complete saturation point. What are they?

Answer 112

1. Warm air moving over a cold surface.
2. Cold and warm air mixing.
3. Air cooling at night through contact with the cooler ground.
4. Air being lifted or forced upward.

Question 113

Why is Frost dangerous to flight?

Answer 113

It disrupts airflow over the wing reducing lift and it increases drag.

Question 114

Define Fog?

Answer 114

A cloud beginning within 50 feet of the surface.

Question 115

Name the 5 types of Fog?

Answer 115

1. Radiation Fog
2. Advection Fog
3. Upslope Fog
4. Steam fog, (AKA Sea Smoke)
5. Ice fog

Question 116

If radiation fog is less than 20 feet thick, it is known as WHAT?

Answer 116

Ground Fog

Question 117

What causes Radiation Fog?

Answer 117

Ground cools rapidly and air reaches its dew point.

Question 118

What causes Advection Fog?

Answer 118

Warm, moist air moving over a cold surface.

Question 119

What causes Upslope fog?

Answer 119

Moist, stable air forced up sloping land features.

Question 120

What causes Steam Fog?

Answer 120

Cold, dry air moving over warm water.

Question 121

What causes Ice Fog?

Answer 121

In freezing weather water vapor forms ice crystals.

Question 122

What is the opposite of deposition?

Answer 122

Sublimation.

Question 123

What is the opposite of sublimation?

Answer 123

Deposition.

Question 124

What is condensation nuclei?

Answer 124

dust, salt, and smoke particles.

Question 125

What is cloud type determined by?

Answer 125

Height, Shape, and Behavior.

Question 126

Low clouds are those that form near the Earth´s surface and extend up to HOW HIGH?.

Answer 126

6,500 feet AGL

Question 127

Typical low clouds are WHAT,WHAT, WHAT and WHAT?

Answer 127

Stratus, Stratocumulus, Nimbostratus and Fog.

Question 128

Middle clouds form around (HOW HIGH) and extend up to (HOW HIGH)?

Answer 128

6,500 ft AGL up to 20,000 ft AGL

Question 129

Typical middle-level clouds include WHAT and WHAT?

Answer 129

Altostratus and Altocumulus.

Question 130

High clouds form above HOW HIGH?

Answer 130

20,000 ft AGL.

Question 131

Typical high-level clouds are, WHAT, WHAT AND WHAT?

Answer 131

Cirrus, Cirrostratus, and Cirrocumulus.

Question 132

Clouds with extensive vertical development are called WHAT?

Answer 132

Towering Cumulus or cumulonimbus clouds.

Question 133

When a large Cumulonimbus is obscured by other cloud formations what term describes this type of weather?

Answer 133

An Embedded Thunderstorm.

Question 134

What do you call a Heaped or piled cloud?

Answer 134

Cumulus

Question 135

What do you call clouds formed in layers?

Answer 135

Stratus

Question 136

What do you call clouds with ringlets; fibrous clouds; also high-level clouds above 20,000 feet.

Answer 136

Cirrus

Question 137

What do you call clouds with a common base with separate vertical development; castle-like.

Answer 137

Castellanus

Question 138

What do you call clouds with a lens shape; formed over mountains in strong winds.

Answer 138

Lenticularus

Question 139

What do you call rain bearing clouds?

Answer 139

Nimbus

Question 140

What do you call clouds that are ragged or broken?

Answer 140

Fracto

Question 141

What are the names of the 2 types of Cumulonimbus (AKA - thunderstorms)?

Answer 141

Air mass thunderstorm
or
Orographic thunderstorm

Question 142

What causes an Air mass thunderstorm?

Answer 142

Heating of the air near the Earth´s surface.

Question 143

What causes an Orographic thunderstorm?

Answer 143

The upslope motion of air in mountainous regions.

Question 144

Cumulonimbus clouds that form in a continuous line are called WHAT?

Answer 144

Non-frontal bands of thunderstorms or squall lines

Question 145

A thunderstorm makes its way through three distinct stages before dissipating. WHAT ARE THEY?

Answer 145

Cumulus Stage,
Mature Stage,
Dissipating Stage.

Question 146

How high can a Thunderstorm get to?

Answer 146

50,000 feet to 60,000 feet depending on latitude.

Question 147

If flying around a thunderstorm, how many miles clearance should you give it?

Answer 147

5 minimum.

Question 148

If you can’t fly around a thunderstorm, what should you do?

Answer 148

Stay on the ground until it passes.

Question 149

Drizzle is classified as very small water droplets, smaller than WHAT SIZE?

Answer 149

Smaller than 0.02 inches in diameter

Question 150

Rain that falls through the atmosphere but evaporates prior to striking the ground is known as WHAT?

Answer 150

virga

Question 151

Ice pellets are an indication of WHAT?

Answer 151

A temperature inversion.

Question 152

What is an Air Mass?

Answer 152

A large body of air that takes on the characteristics of the surrounding area, or source region.

Question 153

Air masses are classified based on their region of origination. What are they categorized as?

Answer 153

(Polar or Tropical)
and
(Maritime or Continental)

Question 154

What is a Front?

Answer 154

The boundary layer between two types of air masses.

Question 155

There are four types of fronts, which are named according to the temperature of the advancing air as it relates to the temperature of the air it is replacing.What are they?

Answer 155

Warm Front
Cold Front
Stationary Front
Occluded Front

Question 156

What is a Warm Front?

Answer 156

A warm mass of air overlapping a body of colder air.

Question 157

How fast are warm fronts?

Answer 157

Warm fronts move slowly, typically 10 to 25 miles per hour (m.p.h.).

Question 158

What is a Cold Front?

Answer 158

A mass of cold, dense, and stable air advancing and replacing a body of warmer air.

Question 159

How fast are cold fronts?

Answer 159

25 to 30 m.p.h. Usually however, extreme cold fronts have been recorded moving at speeds of up to 60 m.p.h

Question 160

What is an Occluded Front?

Answer 160

A fast-moving cold front catching up with a slow-moving warm front.

Question 161

What is a cold front occlusion?

Answer 161

A fast-moving cold front that is colder than the air ahead of the slow-moving warm front.

Question 162

What is a Warm front occlusion?

Answer 162

The air ahead of the warm front is colder than the air of the cold front.

Question 163

Describe flying toward a warm front.

Answer 163

Clouds/visibility/precipitation and ceilings all worsen the closer you get.

Question 164

Prior to the passage of a warm front, which direction would you expect the wind to be coming from?

Answer 164

south-southeast.

Question 165

During the passage of a warm front what direction would you expect the wind to be blowing from?

Answer 165

Variable.

Question 166

After the passage of a warm front which direction would you expect the wind to blow from?

Answer 166

South-southwest.

Question 167

Flying toward a warm front, how do the clouds change (from what to what…..)?

Answer 167

Cirrus to Cirrostratus to Altostratus to Nimbostratus.

Question 168

A high dew point and falling barometric pressure are indicative of WHAT?

Answer 168

Imminent cold front passage.

Question 169

How is a cold front in the Northern Hemisphere normally oriented?

Answer 169

In a northeast to southwest manner