Chapter 10 - Test Four

Question 1

Storms comprised of cumulonimbus clouds that contain:

Answer 1

Lightning and thunder

Question 2

Thunderstorms

Answer 2

Can produce gusty winds, torrential rains, hail and tornadoes.

They form when warm, moist air (mT) rises in an unstable environment.

Question 3

Various mechanisms can trigger the upward movement of thunderstorms:

Answer 3

• Convection (unequal heating of earth’s surface)
• Cold Fronts
• Topographic lifting
• Sea-breeze induced lifting

Question 4

The globe experiences 45,000 thunderstorms / day (Fig. 10.2), most in:

Answer 4

• Lower (more tropical) latitudes

- Over land masses

Question 5

The US experiences 100,000 thunderstorms every year (Fig 10.3)

Answer 5

• More in southeast (mT air)
• max. in FL (sea breeze convergence Fig. 4.21)
• less on west coast, New England (mP air)
• North Carolina averages 40-50
• Raleigh: 42

Question 6

Air-Mass Thunderstorms

Answer 6

Scattered, individual storms that develop within unstable mT air masses.

Question 7

Air-Mass Thunderstorms characteristics:

Answer 7

• Small (10s of kms in diameter)
• short lived (1- 2 hours)
• Non- severe
• Most occur in spring and summer
• Most occur in the afternoon

Question 8

Thunderstorm Stages of Development

Answer 8

A three-stage model was developed in the 1940’s after numerous thunderstorm related airplane crashes prompted field studies in Florida.

Cumulus, Mature, and Dissipating Stage.

Question 9

Cumulus Stage

Answer 9

Warm, moist air rises, expands, cools and condenses, forming thencumulus cloud. Condensation releases Latent Heat Energy, warming the cloud making it less dense than surrounding air
- Allows continue rising and growth

Question 10

Cumulus Stage Characteristics:

Answer 10

• 5-10 km height
• updrafts only
• no precipitation
• no lightning/thunder

Question 11

Mature Stage

Answer 11

Cumulonimbus cloud grows well above freezing level, allowing cloud droplets to grow larger thru both Bergeron and Collision/Coalescence processes, until too large to be supported by updrafts.
- Rain starts to fall- creating a cool dense downdraft

Question 12

Mature Stage Characteristics:

Answer 12

• 10-15 km height
• Anvil cloud spreads out at tropopause
• Updrafts and downdrafts
• Intense precipitation
• Frequent lightning/thunder

Question 13

Dissipating Stage

Answer 13

Begins when downdrafts begin to dominate updrafts, cutting off the release of Latent Heat Energy, which is the “fuel” of the thunderstorm.
- The storm literally collapses on itself

Question 14

Dissipating Stage Characteristics:

Answer 14

• Still 15 km height
• Downdrafts only
• Precipitation decreases, stops
• Lightning/thunder decreases, stops

Question 15

A single Air Mass Thunderstorm generally goes thru all ____ stages within several hours.

Answer 15

three

Question 16

Surprisingly, ____ of the water vapor that is condensed in a thunderstorm actually reaches the ground as rain. The remaining 80% Is carried off as cloud that eventually evaporates.

Answer 16

less than 20 percent

Question 17

Hail

Answer 17

Produced by very strong up/down drafts (up to 100 mph) within Cb clouds

Question 18

Hail stones grow by colliding and coalescing with:

Answer 18

Super cooled liquid water droplets in the upper portions of the Cb cloud that freeze instantaneously
&
Regular liquid water droplets
in the lower portions of the Cb cloud
that freeze more slowly only after the
hail ascends back into the upper portions
of the Cb

Question 19

A cross section of a hailstone reveals its life-cycle much like the cross section of a tree:

Answer 19

Clear sections result from slow freezing (air escapes: no bubbles): occurs in lower part of Cb
&
Opaque sections result from instant freezing (air can’t escape: bubbles): occurs in upper part of Cb

Question 20

Hail Stone Facts

Answer 20

A golf ball sized hailstone requires: 
-	1 billion collisions! 
-	1 hour “hang time”
Largest ever found fell in 2003:
- 	Weight: 1.7 ibs
-	Diameter: 7 inches
Causes billions of $ damage yearly

Question 21

NC ranks #____ nationally in damage

Answer 21

2

Question 22

Severe Thunderstorms are defined by National Weather Service as a thunderstorm with:

Answer 22

Hail ≥ 0.75” in diameter (nickel sized), Wind gusts ≥ 50 knots (58 mph), Tornadoes

Question 23

Only 10% thunderstorms become severe, so annually, the US experiences roughly:

Answer 23

10,000 severe thunderstorms.

Question 24

Severe thunderstorms can also produce:

Answer 24

Flash Flooding (Box 10.1)

Question 25

Flash Flooding

Answer 25

Localized floods of great volume, but short duration.

- Number 1 (storm related) killer in the United States

Question 26

Severe thunderstorms also form in warm, moist, unstable air, but need an additional “ingredient”:

Answer 26

Strong Vertical Wind Sheer

Question 27

Strong Vertical Wind Sheer

Answer 27

Defined as a rapid change in wind speed and/or direction wrt height.

Question 28

Wind Sheer allows the thunderstorm to tilt vertically, which prevents the downdrafts from “____” the updrafts

Answer 28

killing

Question 29

Strong Vertical Wind Sheer tilt allows the updrafts to continue to grow…

Answer 29

resulting in additional Latent Heat energy release - allowing the storm to become stronger hence severe characteristics

Question 30

Characteristics as a result of Strong Vertical Wind Sheer:

Answer 30

• 15-20 km height
• Intense rain, large hail
• Continuous lightning/thunder
• Gust fronts, roll clouds (fig 10.7)
• Overshooting tops

Question 31

Supercell Thunderstorms

Answer 31

Only 2-3% of thunderstorms reach “Supercell” status
Characteristics:
- > 20 km height
- Mesocyclone/ Tornadoes

Question 32

Squall Line

Answer 32

Relatively narrow, long (up to 500 kms) line of thunderstorms that form along or ahead of cold fronts in mT air

Question 33

Mesoscale Convective Complexes (MCCs)

Answer 33

Extremely large (1000 km diameter), long lived
(12-36 hours) complex of many thunderstorms working in concert to maintain favorable environment

Question 34

Microbursts

Answer 34

An intense concentration of downdraft winds that results in:

• Winds exceeding 100 mph
• Extensive straight line wind damage

Question 35

The combination of downburst and gust fronts has been responsible for numerous ____ disasters.

Answer 35

airline

Question 36

Lightning is an electrical discharge that occurs within thunderstorms:

Answer 36

• 80%: cloud-to-cloud/ within cloud (Sheet Lightning)

- 20%: Ground-to-cloud (most dangerous)

Question 37

In order for lightning to occur a charge separation must occur within / near the cumulonimbus (Cb) cloud; results in:

Answer 37

separate regions of opposite electrical charge (+, - ions)

Question 38

Although the source of charge separation within lightning is debatable; it results in:

Answer 38

+ Positive ions accumulating in the upper part of the Cb

- Negative ions accumulating in the lower portion of the Cb

Question 39

Because “opposites attract” the negative ions at the base of the Cb attract positive ions on the ground under the cloud

Answer 39

These positive ions accumulate around tall objects (trees, building, etc.)

Question 40

When the charge separation gets too large, the insulating property of the atmosphere is surpassed, resulting in the electrical discharge called:

Answer 40

The Lightning Stroke

Question 41

The Lightning Stroke

Answer 41

When the negative charge at the base of the Cb becomes excessive, a flow of negative ions rushes toward the ground, ionizing the air

• This flow, which is invisible, is called the:
  Stepped Leader

Question 42

As the stepped leader approaches the ground, a flow of positive ions rushes up to meet it, when they meet a tremendous visible electrical
discharge occurs, called the:

Answer 42

Return stroke

Question 43

This Return Stroke neutralizes the charge separation.

Answer 43

• It is typically several miles long

- But, only about 1 inch in diameter!

Question 44

Thunder

Answer 44

Lightning causes the air to instantly heat to 33,000ºC:

- Results in an explosive expansion of air creating a shockwave resulting in thunder

Question 45

Because light travels at 3 x 10 8 m/s we see lightning immediately; sound; however, travels much slower (3 x 10 2 m/s) so the thunder lags.

Answer 45

We can use this difference in speed to estimate the distance that
lightning occurs from a location.

Sound takes ~ 5 seconds to travel one mile

Example: 20 seconds / 5 = 4 miles away

Question 46

Typically, thunder can only be heard if lightning is within 10-12 miles. This leads to the term “____ lightning”, which is no different than normal lightning.

Answer 46

heat

Question 47

Lightning is the # 2 (Storm related) killer in the U.S. Annually, lightning:

Answer 47

• Kills roughly 100 people (NC ranks#3)
• Starts 10,000 fires
• Causes $5 Billion in damage (homes, forests)

Question 48

Tornadoes

Answer 48

An intense rotating column (or vortex) of air extending from the base of a Cb whose circulation has reached the ground

• Extremely low barometric pressure (900 mb)
• Extremely strong winds
• Also called twisters, cyclones
• some are single vortex, others multiple vortices (Fig.10.19)
  
  • Only 1 % of thunderstorms produce tornadoes

Question 49

Tornado Development

Answer 49

Doppler Rader cannot dictate a tornado

Question 50

Mesocyclone:

Answer 50

vertical cylinder of rotating air within a thunderstorm

- Detectable only by Doppler Rader

Question 51

Wall Cloud:

Answer 51

Portion of the mesocyclone that is observed beneath the Cb as an area of rotating clouds
- This is where the funnel will appear

Question 52

Funnel Cloud:

Answer 52

Cone shape cloud rotating beneath wall cloud

- Comprised of condensation only

Question 53

Tornado:

Answer 53

Circulation has reached the surface

• Debris gets pulled into the circulation
• Roughly ½ of mesocycones will produce a tornado
• A tornadic thunderstorm can go through all four stages within 30 minutes

Question 54

Tornado Climatology

Answer 54

The vast majority of the world’s tornadoes occurs in the US

• 1200 annually (figs. 10.21)
• Many occur in “Tornado alley” , which stretches from Texas to Nebraska

Question 55

North Carolina averages ____ tornadoes per year

Answer 55

10-20

Question 56

Most US tornadoes occur during spring and early summer (Fig. 10.21)

Answer 56

• Following the clash between cP air and mT air

Question 57

Most US tornadoes occur during the afternoon and early evening

Answer 57

• Diurnal heating increases instability, likelihood of thunderstorms, hence tornadoes.

Question 58

Profile of a Tornado

Answer 58

General Characteristics Average Extreme

Diameter: 500 - 2000 feet 1 mile
Movement Speed: 30 mph 70 mph
Movement Direction: from sw to ne any
Lifetime: Minutes hours
Distance: 10-15 miles 100 miles
Wind speed: 100-200 mph 300 mph

Question 59

Tornado Destruction is measured by the

Answer 59

Fujita Intensity Scale

• intensity scale developed in the 1960’s
• based on observed damage

Question 60

Fujita Intensity Scale

Answer 60

Fujita Scale Description %
F0, F1 weak tornadoes 63 F2, F3 Strong tornadoes 35
F4, F5 Violent Tornadoes less than 2

Question 61

70% of tornado deaths are associated with the rare ____

Answer 61

F4/F5s

Question 62

Noted Tornado Outbreaks

Answer 62

1925 Tri-State Tornado (Fig. 10.23)
1974 Super outbreak (Box 10.4, Fig. 10.E)
2011 Worst Tornado year in US history

Question 63

Noted NC Tornadoes

Answer 63

1984 Over 40 fatalities, 800 injuries in eastern NC
1988 Several fatalities , 160 injuries in Raleigh
2011 Over 20 fatalities (4 in Raleigh), 30 tornadoes

Question 64

Tornado Forecasting

The Storm Prediction Center in Oklahoma issues:

Answer 64

Tornado Watches for the entire US, which are designed to alert the public to the fact that conditions are favorable for the development of tornadoes.

Question 65

Watch “Boxes” are typically issued for:

Answer 65

• Large areas (25,000 square miles)

- Relatively long time period (4-6 hours).

Question 66

The local National Weather Service Offices (ours is at Centennial Campus) issue:

Answer 66

Tornado Warnings only after a tornado has been spotted or indicated on Doppler RADAR.

Question 67

Warnings are typically issued for:

Answer 67

• Small areas (i.e. counties)

- Short time period (30-60 minutes)