Chapter 6 COPY

Question 1

Driving force behind wind

Answer 1

Winds are driven by: the imbalance between equatorial energy surpluses and polar energy deficits

Question 2

Atmsopheric Circulation is Categorized at ___ levels.

Answer 2

3 levels

1. primary circulation
2. secondary circulation
3. tertiary circulation

Question 3

Primary circulation

Answer 3

consists of general worldwide circulation (saharan dust for example)

Question 4

Secondary Circulaton

Answer 4

consists of high pressure and low pressure systems

Question 5

Tertiary Circulation

Answer 5

consists of local winds and temporal weather patterns

Question 6

Meridional flows

Answer 6

Winds moving principally North or South along meridians of longitude

Question 7

Zonal Flows

Answer 7

Winds moving East or West along parallels of latitude

Question 8

Air Pressure

Answer 8

weight of the atmosphere described as force per unit area

• air molecules create air pressure through their motion, size and number. this pressure is exerted on all surfaces in contact with air.

Question 9

Wind

Answer 9

• The horizontal motion of air across Earth’s surface

- produced by differences in air pressure (Density) between one location and another produce wind

Question 10

Winds are named for the direction from ________

Answer 10

which they originate!!!

Question 11

Driving Forces behind wind speed and direction of wind within the Atmosphere

Answer 11

1. Earth’s Gravity
2. Pressure Gradient Force
3. Coriolis Force
4. Friction Force

Question 12

Pressure and Density _____ with altitude

Answer 12

decrease

Question 13

Why does the experience of “thin air” occur?

Answer 13

caused by the smaller amount of oxygen to inhale. (fewer air molecules mean less oxygen)

Question 14

Symptoms of acute mountain sickness (thin air)

Answer 14

• shortness of breath
• headaches
• disorientation

Question 15

Why is hot air less dense than cold air?

Answer 15

• Heating air increases molecular activity and temperature.
• Increase in molecular activity results in greater spacing between molecules, decreasing density and air pressure
• cold air is heavy and dense, so sinks and increases pressure

Question 16

How does water vapour in air affect density?

Answer 16

• Moist air is lighter
• Because the molecular weight of water is less than that of the molecules making up dry air
• As water vapour in the air increases, density decreases, so humid air exerts less pressure than dry air.

Question 17

warm, humid air is associated with _____ p____ and cold, dry air is associated with ______ p____

Answer 17

warm, humid air is associated with low pressure

and cold, dry air is associated with high pressure

Question 18

Another word for wind

Answer 18

Atmospheric Circulation

Question 19

Barometer

Answer 19

Any instrument that measures air pressure

Question 20

Mercury Barometer

Answer 20

• A device that measures air pressure using a column of mercury in a tube
• One end of the tube is sealed, the other end is inserted in an open vessel of mercury
• if the pressure is high the air pressure will push the liquid mercury and the higher the mercury will rise inside that glass tube

Question 21

Millibar

Answer 21

a measure of force per square metre of a surface area.

Question 22

Standard of normal sea-level pressure

Answer 22

at 1013.2 mb or 29.92 in. of mercury (Hg).

In Canada and other countries, normal air pressure is expressed as

Question 23

Standard of normal air pressure in Canada and some other countries is expressed as

Answer 23

101.32 kPa (kilopascal; 1 kPa = 10 mb)

Question 24

Anemometer

Answer 24

An instrument that measures wind velocity.

Question 25

Wind vane

Answer 25

Instrument that measures wind direction

Question 26

Wind’s two principal properties

Answer 26

Speed and Direction

Question 27

How does Gravity affect wind?

Answer 27

• The pressure that Earth’s gravitational force exerts on the atmosphere is virtually uniform
• Gravity equally compresses the Earth’s atmosphere, with density decreasing as altitude increases
• The gravitational force counteracts the outward centrifugal force acting on Earth
• Without gravity, there would be no atmospheric pressure—or atmosphere, for that matter

Question 28

How does Pressure Gradient Force affect wind?

Answer 28

• drives air from areas of higher barometric pressure to areas of lower barometric pressure, causing winds

Question 29

Why do High and Low pressure areas occur on Earth?

Answer 29

• Principally because the Earth is unequally heated
• Cold, dry, dense air at the poles exerts greater pressure than warm, humid, less-dense air along the equator
• when masses of air are near each other, a pressure gradient develops and leads to horizontal air movement

Question 30

High pressure is associated with…

Answer 30

Strongly subsiding and diverging air

Question 31

Low Pressure is associated with…

Answer 31

Strongly converging and rising air

Question 32

Isoline

Answer 32

A line along which there is a constant value

Question 33

Isobar

Answer 33

An isoline connecting all points of equal atmospheric pressure.

• denotes steepness in the pressure gradient.
• lines of equal atmospheric pressure
• intervals always at 4

Question 34

The pattern of isobars provides a portrait of?

Answer 34

the pressure gradient between an area of higher pressure and one of lower pressure

Question 35

The spacing between isobars indicates?

Answer 35

The intensity of the pressure difference, or pressure gradient.

Question 36

What does Earth’s atmospheric circulation transfer?

Answer 36

• thermal energy
• air
• water masses

using:

• waves
• streams
• eddies

Question 37

Geostrophic Wind

Answer 37

A wind characteristic of upper tropospheric circulation, moving between areas of different pressure along a path parallel to the isobars. A product of the pressure gradient force and the Coriolis Force

Question 38

Coriolis Force

Answer 38

The apparent deflection of moving objects (wind, ocean currents, planes) from travelling in a straight path, in proportion to the speed of Earth’s rotation at different latitudes.

• Northern Hemisphere: to the right
• Southern Hemisphere: to the left
• maximum at poles, zero along equator
• effect of Earth’s rotation

Question 39

The Extent of Surface Friction extends to about ??? and varies with ???

Answer 39

500m

varies with:

• surface texture
• wind speed
• time of day/year
• atmospheric conditions

Question 40

Effects of Surface Friction

Answer 40

Decreases Wind Speed

Reduces Effect of Coriolis Force

Causes winds to move across isobars at an angle

Question 41

If the Earth did not rotate…

Answer 41

there would be a simple wind flow from poles to the equator. A Flow caused solely by pressure gradient.

Question 42

Coriolis Force

Answer 42

A Deflective force that makes wind travelling in a straight path appear to be deflected in relation to Earth’s rotating surface.

Question 43

Why use mercury in a barometer?

Answer 43

Mercury is about 14 times denser than water

Question 44

Aneroid Barometer

Answer 44

An instrument that measures air pressure without liquid.

Question 45

Normal sea-level pressure

Answer 45

760 mm mercury

103. 2 mb (millibars)
104. 32 kPa (kiloPascals)

Question 46

Normal sea-level air pressure

Answer 46

760 mm mercury

103. 2 mb (millibars)
104. 32 kPa (kiloPascals)

Question 47

Easterly wind

Answer 47

winds coming from the east

Question 48

Pressure Gradient Force

Answer 48

differences in pressure that exist across a horizontal distance

Question 49

In the northern hemisphere, the Coriolis force ..

Answer 49

acts at 90 degrees to the right of the object in motion

Question 50

in the southern hemisphere, the Coriolis force…

Answer 50

acts at 90 degrees to the left of the object in motion

Question 51

Difference between geostrophic and surface wind

Answer 51

Greater frictional force and resulting slow wind speeds mean that surface winds are less affected/deflected by Coriolis force.

Question 52

In high pressure systems, wind moves __ward in a ____wise motion. and wind is directed _____ward

Answer 52

outward, clockwise, downwards.

Question 53

In low pressure systems, wind moves __ward in a ____wise motion. and is directed ____ward

Answer 53

inward, counterclockwise, upwards.

Question 54

Hadley Cells

Answer 54

Circulation between 0 and 30 degrees

Question 55

Ferrell Cell

Answer 55

Circulation between 30 and 60 degrees

Question 56

Polar Cell

Answer 56

Circulation between 60 and 90 degrees

Question 57

Land Vs Water in terms of rate of heating?

Answer 57

land heats up faster

Question 58

Sea Breeze

Answer 58

High pressure over water, low pressure over land.

Wind blows towards the land. generally during the day.

Question 59

Land Breeze

Answer 59

Low pressure over water, low pressure over land.

Wind blows towards the sea, generally occurs during the night.

Question 60

Land Vs Water in terms of rate of cooling

Answer 60

Land cools faster

Question 61

Valley Breeze

Answer 61

Warm air rising up from a valley (during the day)

Question 62

Mountain Breeze

Answer 62

Cold air sinks down into the valley (during the night)

Question 63

Katabatic wind

Answer 63

Only happens in Antartica and Greenland.

cold, permanent snow/ice on land masses surrounded by water. Cold, fast air tends to sink toward the warm ocean. this is due to the pressure gradient being very high.

Question 64

Santa Ana Winds

Answer 64

California.

Conditions that occur in the fall and winter time. Wind flowing to the pacific ocean is funnelled through mountains. This increases speed and warmth of the air.

Causes fires.