Geography Midterm

residence time

steady state

thermocline

travel time

is a permanent gas

is a good reflector of thermal radiation

is removed from the atmosphere by the digestive processes of cattle

has increased in concentration over the last 50 or so years

is a different type of physical phenomenon than the aurora australis

gains its energy from sunlight reflected from Earth

is typically strongest near the equator

emits light as electrons move from higher orbits around the nucleus to lower ones

very thick when compared to the earth's diameter

very thin when compared to the earth's diameter

stops at the top of the troposphere

stops when we reach "space"

troposphere

mesosphere

ionosphere

stratosphere

mass

density

volume

none of the above

precipitation and air

particulate matter and water

gas molecules, small particulates, and moisture

moisture and gas molecules only

has most of its electrons combines with positively charges ions at night

lies above the E-layer

is transparent to AM radio waves

has no significant effect on AM radio waves

troposphere, stratosphere, mesosphere, thermosphere

thermosphere, stratosphere, mesosphere, troposphere

stratosphere, mesosphere, thermosphere, troposphere

thermosphere, mesosphere, stratosphere, troposphere

has a low heat content

would feel very hot to an austronaut

is characterized by a decrease in temperature as height increases

is part of the homosphere

include cloud droplets

have little effect on weather

are formed by physical processes, not chemical processes

can be either solid or liquid

has height that is relatively consistent at about ten kilometers

stays about the same temperate above three kilometers

contains a bit less than half the atmosphere's mass

is characterized in part by vertical mixing of air

dust and dirt deposited by volcanoes

the interaction of ozone and ultraviolet light

the interjection of moisture by meteors

the interjection of moisture by high-flying jet aircraft

has vertical wind speeds that are typically around one-tenth that of horizontal wind speeds

is about as deep as the planet is wide

is more than 99 percent contained within the first 60 miles from the earth's surface

has not changed substantially in composition since the earth formed over four billion years ago

it varies significantly from the surface up

it varies significantly only at the troposphere

it is the same throughout the atmosphere from the surface up

it varies only in the mesosphere

comprises up to two percent of the atmospheric gases

is being removed from the atmosphere faster than it is being inputted

is removed from the atmosphere by photosynthesis

is not present in significant amounts in the atmosphere of Venus

is part of the heterosphere

has a low moisture content compared to the troposphere

typically gets colder as elevation increases

is where much of Earth's weather occurs

is thinnest at the tropics

maintains a relatively constant temperature

is thicker in summer

often disappears near the poles in winter

1%

10%

50%

90%

was heavily dependent upon aerobic bacteria

would have occurred even if carbon dioxide had not been present

occurred at the same time the atmospheric levels of carbon dioxide were decreasing

required large amounts of atmospheric nitrogen

nitrogen

oxygen

carbon dioxide

water vapor

lies below the homosphere

contains primarily heavy gases

is populated primarily by variable gases

is names for its chemical homogeneity

volcanic outgassing

collisions of Earth with other large bodies

periodic energy pulses from the surface of the Sun

gravitational attraction of the Moon

nitrogen

oxygen

carbon dioxide

argon

is in the troposphere

is composed of nearly half ozone

absorbs ultraviolet energy

radiates gamma rays toward Earth

an increase in the burning dirty fossil fuels like coal

an increase in the burning of cleaner fossil fuels like natural gas

deforestation of large tracts of woodland

none of the above

tornadoes

hurricanes

extreme hot or cold episodes

floods

an invisible force of ion attraction

gravity

the hydrostatic balance of water vapor and carbon dioxide

compression of the ionosphere by the solar wind

is not capable of producing clouds of water vapor

recaptures nearly all the heat radiated from the planet's surface

consists primarily of carbon dioxide

is nearly as dense as that of Earth

created the earth's first atmosphere

has had little effect on the earth's atmosphere

emits large amounts of water vapor

emits very little carbon dioxide

December solstice

March equinox

September equinox

June solstice

the wavelength of peak radiation is proportional to temperature

the Sun's energy intensity peaks in the visible portion of the electromagnetic spectrum

the radiation emitted from Earth must be 4 micrometers or longer

wavelength is proportional to the fourth power of the intensity of radiation

radio, gamma rays, ultraviolet, visible, infrared, x-rays

gamma rays, radio, ultraviolet, infrared, visible, x-rays

x-rays, ultraviolet, infrared, gamma rays, visible, radio

radio, infrared, visible, ultraviolet, x-rays, gamma rays

is the same at the Arctic Circle and at the equator on the solstices

affects the degree of beam spreading

is lowest in the Northern Hemisphere during its winter

is lowest at the North Pole during its summer

is restricted to a single energy state

cannot be removed from that atom unless that atom combines with another hydrogen atom to form a hydrogen molecule

has greater energy when it is further away from the nucleus

can absorb and emit photons of nearly any wavelength

conduction

diffused radiation

insolation

albedo

do work

create movement

cause acceleration

none of the above

.1 microns

1 micron

10 microns

100 microns

January 3rd

April 1st

July 4th

December 25th

the movement of the atmosphere

the growth of plants

the evaporation of water

all of the above

Arctic CIrcle

North Pole

Antarctic Circle

Tropic of Capricorn

is the same throughout the solar system

varies inversely with the fourth power of an object's distance from the Sun's surfare

is independent of the Stefan-Boltzmann law

is higher for Earth than for Mars

the solar declination is 23.5 degrees North

the Southern Hemisphere overall receives more energy than does the Northern Hemisphere

the South Pole experiences 24 hours of daylight

the subsolar point is on the Tropic of Capricorn

gives energy intensities in watts per square meter

demonstrates that a cooler body will radiate with greater intensity than will a hotter body

does not apply to black bodies

is derived from Wien's law

solar energy and temperature

temperature and long-wave radiation

the intensity of radiation and the temperature of an object

emissivity and wavelength

Thermal infrared

radio

gamma

ultraviolet

size

distance

diameter

temperature

the solar declination is zero degrees

both hemispheres receive the same amount of insolation

every place has 12 hours of daylight

the solar angle at the North Pole is 90 degrees

can only approximate the Stefan-Boltzmann law

are hypothetical, they don't actually exist

emit the same amount of energy regardless of their temperatures

do not emit radiation as well as gray bodies do

core

corona

photosphere

chronosphere

nuclear fission

nuclear fusion

the big bang

nuclear differentiation

does not involve an actual transfer of energy

involves potential energy only

involves mixing in a fluid

is another term for conduction

electromagnetic radiation

boiling water

food

a water wheel in motion

granules

flares

sunspots

the solar wind

conduction

convection

radiation

all three of the above involve the movement of particle

Watt

ampere

joule

ohm

occurs at only one scale

occurs at more than one scale

occurs only at scales that are very small

occurs only at scales that are very large

5.3

11.2

23.5

90

the same as energy

the rate at which energy is released

measured in joules

the ability to do work

only those processes that can be seen

energy that is transferred at the molecular level only

conduction, convection, and radiation

only the energy interaction between the earth and the atmosphere

red light has more energy than blue light

mie scattering

rayleigh scattering

light has to travel through more atmosphere to reach the observer

energy radiated equals energy absorbed

the polar ice caps are melting in order to maintain ocean temperatures

global warming is driving the earth-atmosphere system closer to a pure blackbody

of the movement of latent heat from north to south across the equator

none of the above

latitude

altitude

proximity to water

all of the above

of the difference in the solar constant

short wave lengths of energy pass through the glass but longer ones can't

the windows of the greenhouse only allow green light wavelengths to pass through

all greenhouses face south and into the maximum angle of solar energy

the Sun has more energy when shining from the west

the atmosphere is "thinner" in the afternoon

there is a thermal "lag" in the heating of the atmosphere

None of the above. There is no relationship between the maximum amount of sunshine and the time of maximum daily temperature

selective absorber

blackbody absorber

inferior absorber of x-rays

absorber of all radiation equally

scattering

absorption

reflection

all of the above

temperatures over land are colder than those over water at the same latitude in winter

temperatures increase poleward

the latitudinal temperature gradient is weakest in the hemisphere experiencing winter

it is difficult to explain the behavior of isotherms over the continents

Rayleigh scattering

mie scattering

nonselective scattering

infrared absorption

are more greatly influences by continentality

have a lower specific heat

warm more quickly

cool more slowly

it releases latent heat

it changes the heat capacity of the body

colder molecules in a passing wind adhere to the wet skin

it involves a transfer of sensible heat

direct radiation

diffused radiation

albedo

ultraviolet light

is absorbed by the earth

represents about 50 percent of the amount that was at the top of the atmosphere

is unaffected by earth's albedo

has not yet been affected by backscattering

20%

50%

80%

100%

during the Northern Hemisphere summer, the Southern Hemisphere gains more energy than it loses

during the Southern Hemisphere winter, the area of net radiation gain lies north of the equator

global winds are the only significant method for redistributing heat toward the poles

the equator experiences a net radiation loss for six months out of the year

ratio scale

ordinal scale

nominal scale

interval scale

rayleigh

mie

convection

non-selective

is a form of laminar flow

results from vertical temperature differentials

occurs when a fluid breaks into eddies

is a major cause of upper-level aircraft turbulence

is primarily absorbed by the atmosphere

is in the form of radio waves

has little effect on the earth's energy budget

had its origin in radioactive elements in the earth's interior

space reflects all wavelengths of radiation equally

the Moon contains neither oceans nor vegetation

the Moon does not have sufficient gravity to attract visible light

The Moon has no atmosphere

the rotation of the earth

the gravitational attraction of the Moon

the gravitational attraction of the continents

the drag of wind blowing across the water's surface

5%

14%

25%

50%

are more likely to have more vegetation

receive more solar radiation than do north-facing slopes

will typically look the same as north-facing slopes, except near the equator

are most lush in subtropical regions

is performed quite well by the atmosphere for visible wavelengths

is done to differing degrees by different gases

does not prevent most ultraviolet light from reaching earth's surface

is typically greater in desert areas than in humid areas

has only small effect on the atmosphere

is the same for all substances undergoing the same phase change

is more important for the atmosphere when released through evaporation rather than through melting

is the amount of heat needed to raise on kilogram of a substance by one degree Celsius

radiation

transmisison

conduction

perihelion

summer sosltice

aphelion

vernal equinox

is impermeable to shortwave radiation

blocks the transfer of longwave radiation

allows the loss of sensible heat

allows the loss of latent heat

is moved via advection from place to place on the earth

serves as a way of moving energy from place to place without disturbing areas in between

provides the fuel for literally all mid-latitude storms

can be traces to the hydrological cycle

all of the above

is caused by the absence of certain gasses

is a local phenomenon similar to the ozone hole that opens over Antarctica in winter

is located at a band of wavelengths between 2 and 6 micrometers

allows certain wavelengths of longwave radiation to pass through the atmosphere

different pressures in different places

the drag on the atmosphere caused by the earth's rotation

the interaction of the atmosphere with the charged particles of the solar wind

the movements of ocean currents

argon

hydrogen

water vapor

nitrogen

absorbs ultraviolet light

typically reaches its greatest concentrations near the ground and near major cities

is very difficult to split into diatomic oxygen and monatomic oxygen

exists primarily in the troposphere

plants grow in the warm season and not in the cold season

more residential heating is required during the cold season

less pliant decay takes place during the cold season

all of the above

mesopause

stratopause

tropopause

stratosphere

occurs only when the Sun is shining

releases oxygen into the air

must give off less carbon than is fixed through photosynthesis if a plant is to experience net growth

does not affect the concentration of carbon dioxide in the atmosphere

will, for a given amount of gas, experience an increase in pressure if the volume of the gas is decreased

undergoes abrupt pressure changes as height above the surface of the earth increases

has a smaller mean free path at higher elevations than at lower elevations

has no significant effect on sports events played at different elevations

satellites have a difficult time flying through it

visible sunlight is deflected by it

of the electrical charges of atoms associated with it

no radio waves can pass through it

F1

F2

F4

F5

falling precipitation

settling to the ground due to the influence of gravity

chemical decomposition

traveling higher and higher above the earth until they escape into space

water vapor

argon

ozone

carbon dioxide

lies above the corona

lies below the Sun's atmosphere

cannot be viewed by Earth-based observers

affects the earth's ionosphere

receives the energy from the Sun's core in a matter of minutes

radiates much of the energy the earth receives

decreases in density closer to the Sun's core

lies above the chronosphere

typically varies in number on a roughly eleven-year cycle

was first observed in the late nineteenth century

typically has the same number of sunspots per year

has been conclusively linked to climate changes

core

corona

photosphere

chronosphere

it moves at the speed of light

it is often measured in micrometers

its energy is inversely proportional to its amplitude

its energy does not decrease with distance

temperature

mass

volume

density

17th

18th

19th

20th

1/2

1/4

1/8

1/16

are caused by locally intense magnetic fields

appear in the chronosphere

are warmer than the material surrounding them

tend to be less than 100 miles in diameter

a charged battery not in use

firewood

water behind a dam

electrical power

typically occurs at noon

occurs when incoming radiative energy is exactly balances by outgoing radiative energy

occurs during the time of maximum insolation

occurs when the surface energy budget is running a surplus

radiation that is left over after a solar flar

defined as the difference between absorbed and emitted radiation

the solar energy that exceeds the solar constant

the sole cause of global warming

1/10

1/4

1/2

3/4

7%

15%

30%

50%

is less important to making up the atmosphere's radiative energy deficit than is conduction

typically transfers heat downward during the day

plays no significant role at night

helps circulate heat throughout the atmosphere

albedo

emission

absorption

secondary reflectance

keep the earth at a comfortable temperature

did not exist in significant concentrations until the coming of the Industrial Age

are good absorbers of shortwave radiation

cause the earth to have much wider swings in daily temperature ranges than if the gases were not present

is easily done using Wien's law

is best done assuming the earth is a flat disk

is complicated by uncertainty over the value of the earth's albedo

can be done only by assuming the earth does not approximate a black body

North Equatorial current

South Equatorial current

Gulf Stream

Falkland current

the earth would undergo an uncontrollable greenhouse effect

the earth would eventually reach a higher equilibrium temperature

the amount of longwave energy radiated from Earth's surface would decrease

the earth would have a surplus of incoming radiation energy compared to outgoing radiation energy until the Sun finally burned itself otu

34% land
66% water

50% land
50% water

29% land
71% water

25% land
75% water

gamma ray, x-ray, radio

shortwave, infrared, visible

radio, infrared

x-ray, radio, shortwave

ratio

ordinal

nominal

interval

nominal

ratio

interval

ordinal

ordinal

nominal

interval

ratio