Transcript
6.1 Which of the following instruments is used to measure atmospheric pressure?
Anemometer
Barometer
Thermograph
Tachometer
Hygrometer
6.1 Which of the following instruments is used to measure atmospheric pressure?
Anemometer
Barometer
Thermograph
Tachometer
Hygrometer
6.2 With an increase in altitude, air pressure:
Increases at a constant rate
Increases at a decreasing rate
Decreases at a constant rate
Decreases at a decreasing rate
Decreases at an increasing rate
Increases at a constant rate
Increases at a decreasing rate
Decreases at a constant rate
Decreases at a decreasing rate
Decreases at an increasing rate
6.2 With an increase in altitude, air pressure:
6.3 On an upper-level weather chart, a ridge indicates:
The direction major weather systems are moving
An elongated high pressure area
An elongated low pressure area
A region of cold, wet weather
A constant 18,000 foot elevation
The direction major weather systems are moving
An elongated high pressure area
An elongated low pressure area
A region of cold, wet weather
A constant 18,000 foot elevation
6.3 On an upper-level weather chart, a ridge indicates:
6.4 The addition of water vapor into a volume of air will cause the density of air to:
Decrease
Increase
Stay the same
Vary widely in a horizontal direction
6.4 The addition of water vapor into a volume of air will cause the density of air to:
Decrease
Increase
Stay the same
Vary widely in a horizontal direction
6.5 Lines of equal pressure are called:
Isotherms
Isohyets
Isotachs
Isodrosotherms
Isobars
6.5 Lines of equal pressure are called:
Isotherms
Isohyets
Isotachs
Isodrosotherms
Isobars
6.6 Winds are generated by the:
Coriolis force
Pressure gradient force
Friction force
Centrifugal force
Centripetal force
Coriolis force
Pressure gradient force
Friction force
Centrifugal force
Centripetal force
6.6 Winds are generated by the:
6.7 On a weather map of air pressure, what can you infer from a closer spacing of isobars?
Nothing can be inferred.
A steep pressure gradient and light winds
A steep pressure gradient and strong winds
A weak pressure gradient and light winds
A weak pressure gradient and strong winds
6.7 On a weather map of air pressure, what can you infer from a closer spacing of isobars?
Nothing can be inferred.
A steep pressure gradient and light winds
A steep pressure gradient and strong winds
A weak pressure gradient and light winds
A weak pressure gradient and strong winds
6.8 Atmospheric circulations are fundamentally
caused by:
The heating of the ozone layer
The passage of frontal storm systems
Ocean currents
Earth’s gravity
Unequal heating of Earth’s surface
6.8 Atmospheric circulations are fundamentally
caused by:
The heating of the ozone layer
The passage of frontal storm systems
Ocean currents
Earth’s gravity
Unequal heating of Earth’s surface
6.9 In either the Northern or Southern Hemisphere,
a cyclonic flow means:
Any clockwise wind flow
Any counterclockwise wind flow
Circulation around a low pressure center
Circulation around a high pressure center
Any strong wind
6.9 In either the Northern or Southern Hemisphere,
a cyclonic flow means:
Any clockwise wind flow
Any counterclockwise wind flow
Circulation around a low pressure center
Circulation around a high pressure center
Any strong wind
Magnetic field
Atmosphere
Rotation
Dense core
6.10 The Coriolis force occurs because of Earth’s:
6.10 The Coriolis force occurs because of Earth’s:
Magnetic field
Atmosphere
Rotation
Dense core
6.11 In the Northern Hemisphere, the Coriolis force deflects moving air:
To the right
To the left
Always toward the north
Always toward the south
It does not deflect moving air.
6.11 In the Northern Hemisphere, the Coriolis force deflects moving air:
To the right
To the left
Always toward the north
Always toward the south
It does not deflect moving air.
6.12 The Coriolis force is _______ in the upper troposphere because _______.
Enhanced; the pressure gradient is weaker
Enhanced; there is less friction
Enhanced; there is more friction
Decreased; air moves to high latitudes
Decreased; there is more friction
6.12 The Coriolis force is _______ in the upper troposphere because _______.
Enhanced; the pressure gradient is weaker
Enhanced; there is less friction
Enhanced; there is more friction
Decreased; air moves to high latitudes
Decreased; there is more friction
6.13 A geostrophic wind:
Flows perpendicular to the pressure gradient force
Is usually not affected by the Coriolis force
Is strongly influenced by friction
Follows the pressure gradient force
Flows in the geosphere
Flows perpendicular to the pressure gradient force
Is usually not affected by the Coriolis force
Is strongly influenced by friction
Follows the pressure gradient force
Flows in the geosphere
6.13 A geostrophic wind:
In the Northern Hemisphere, low pressure will be on your left if you stand with your back to the wind
Winds higher than a few kilometers are called geostrophic
Winds at Earth’s surface are frictionless
Cyclonic flow must be opposite the direction of Earth’s rotation
6.14 Buys Ballot’s law states that:
6.14 Buys Ballot’s law states that:
In the Northern Hemisphere, low pressure will be on your left if you stand with your back to the wind
Winds higher than a few kilometers are called geostrophic
Winds at Earth’s surface are frictionless
Cyclonic flow must be opposite the direction of Earth’s rotation
6.15 Which of the following is INCORRECT relative to air circulation?
Anticyclone—High pressure
Cyclone—Low pressure
Anticyclone—Clockwise circulation in the
Southern Hemisphere
Cyclone—Counterclockwise circulation in the Northern Hemisphere
6.15 Which of the following is INCORRECT relative to air circulation?
Anticyclone—High pressure
Cyclone—Low pressure
Anticyclone—Clockwise circulation in the Southern Hemisphere
Cyclone—Counterclockwise circulation in the Northern Hemisphere
6.16 In a Northern Hemisphere cyclone viewed
from above, surface winds blow:
Clockwise and parallel to isobars
Clockwise and outward
Counterclockwise and parallel to isobars
Counterclockwise and inward
6.16 In a Northern Hemisphere cyclone viewed
from above, surface winds blow:
Clockwise and parallel to isobars
Clockwise and outward
Counterclockwise and parallel to isobars
Counterclockwise and inward
6.17 High air-pressure systems are
usually associated with:
Diverging winds at the surface
Subsiding air
Clear weather
All of the above are correct.
Only a and c are correct.
6.17 High air-pressure systems are
usually associated with:
Diverging winds at the surface
Subsiding air
Clear weather
All of the above are correct.
Only a and c are correct.
6.18 If “fair” weather is approaching, the pressure tendency would probably be:
Falling
Steady
Rising
Pressure tendency has nothing to do with forecasting fair or stormy weather.
6.18 If “fair” weather is approaching, the pressure tendency would probably be:
Falling
Steady
Rising
Pressure tendency has nothing to do with forecasting fair or stormy weather.
6.19 On a 360 degree wind vane dial, winds from the west are associated with:
0 degrees
90 degrees
180 degrees
270 degrees
0 degrees
90 degrees
180 degrees
270 degrees
6.19 On a 360 degree wind vane dial, winds from the west are associated with:
6.20 An instrument used to measure wind
speed is called a(n):
Anemometer
Aneroid barometer
Thermograph
Tachometer
Hygrometer
Anemometer
Aneroid barometer
Thermograph
Tachometer
Hygrometer
6.20 An instrument used to measure wind
speed is called a(n):
6.21 When wind consistently blows more often from one direction than any other, this is called a:
Wind vane
Wind rose
Prevailing wind
Trade wind
Converging wind
6.21 When wind consistently blows more often from one direction than any other, this is called a:
Wind vane
Wind rose
Prevailing wind
Trade wind
Converging wind
6.22 What country has the largest wind-generating capacity?
China
United States
Germany
Spain
India
China
United States
Germany
Spain
India
6.22 What country has the largest wind-generating capacity?
