Deck 9: Atmospheres of the Terrestrial Planets

A)They were too hot and their escape velocities too low to hold onto them.
B)The solar wind was too strong and blew these gasses off the planets.
C)Their high surface temperatures made the gas chemically react with the rock.
D)The centrifugal force from the planets' fast rotation rates made them fly off.
E)The initial gases were so heavy when the planet differentiated that they sank to the core.

A)Its mass is small.
B)It has a high temperature.
C)It is close to the Sun.
D)Its escape velocity is low.
E)All of the above are reasons.

A)No,the average velocity of water molecules is 0.9 km/s.
B)Yes,the average velocity of water molecules is 0.9 km/s.
C)Yes,the average velocity of water molecules is 2.1 km/s.
D)No,the average velocity of water molecules is 2.1 km/s.
E)Yes,the average velocity of water molecules is 19 km/s.

A)No,the average velocity of hydrogen atoms would be 0.8 km/s.
B)No,the average velocity of hydrogen atoms would be 3.9 km/s.
C)Yes,the average velocity of hydrogen atoms would be 3.9 km/s.
D)Yes,the average velocity of hydrogen atoms would be 25 km/s.
E)No,the average velocity of hydrogen atoms would be 25 km/s.

A)Water vapor would escape because 1⁄6 times the escape velocity is 0.51 km/s.
B)Water vapor would not escape because 1⁄6 times the escape velocity is 1.7 km/s.
C)Water vapor would escape because 1⁄6 times the escape velocity is 0.42 km/s.
D)Water vapor would not escape because 1⁄6 times the escape velocity is 2.6 km/s.
E)Water vapor would escape because 1⁄6 times the escape velocity is 1.3 km/s.

A)there would be no liquid water on Earth
B)life as we know it would not have developed on Earth
C)it would be a much colder planet
D)there would be no oxygen in the Earth's atmosphere
E)All of the above are results of the greenhouse effect.

A)Venus is covered with clouds.
B)Earth has a large amount of liquid water.
C)Some form of ice does exist on Mars,but it does not have large amounts of liquid water.
D)The planets in order from the least to most dense atmospheres are Venus,Earth,and Mars.
E)All of the above are valid conclusions.

A)high surface temperatures
B)volcanic activity
C)cometary impacts
D)a lack of asteroid impacts
E)the greenhouse effect

A)The water vapor would relieve the greenhouse effect and decrease Venus's surface temperature.
B)Water droplets would condense into rain and form lakes on Venus's surface.
C)The water vapor would chemically react with carbon dioxide and form acid rain.
D)UV light would break apart the water molecules,and the hydrogen would be lost into space.
E)It would rise into the atmosphere and form hurricane-like storms.

A)oxygen and nitrogen
B)methane and ozone
C)carbon dioxide and water vapor
D)hydrogen and helium
E)methane and ammonia

A)The majority of Earth's carbon dioxide escaped into space because of its hotter temperature,while Venus's carbon dioxide remains gravitationally bound to Venus.
B)The majority of Earth's carbon is now bound up in rock while Venus's remains in its atmosphere.
C)Earth lost more of its secondary atmosphere because it was bombarded by more planetesimals than Venus.
D)The majority of Earth's carbon was absorbed by plants during photosynthesis.
E)Earth and Venus still have equal amounts of carbon dioxide in their atmospheres.

A)Volcanism
B)Accretion
C)Oxidation
D)Comet impacts
E)All of the above contributed gasses to Earth's secondary atmosphere.

A)Mercury
B)Venus
C)Mars
D)the Moon
E)Earth

A)It easily absorbs UV radiation.
B)It easily absorbs visible light.
C)It easily absorbs infrared radiation.
D)It easily reacts chemically with rock.
E)It easily photodissociates in the upper atmosphere.

A)infrared
B)visible
C)ultraviolet
D)radio
E)microwave

A)10;10
B)200;100
C)2,000;2
D)2;10
E)1,000;200

A)contract
B)expand
C)remain the same size
D)explode

A)ammonia delivered by comet impacts
B)photosynthesis done by algae and plants
C)oxidation of silicate rich minerals
D)rock delivered by asteroid impacts
E)its primary atmosphere

A)Venus has slow,retrograde rotation,and its seasons are very long.
B)Venus has many active volcanoes that release heat into its atmosphere.
C)Venus has a very thin atmosphere,and more sunlight falls onto its surface.
D)Venus has a strong greenhouse effect.
E)Venus has a highly eccentric orbit and is sometimes much closer to the Sun than other times.

A)0 K
B)0.35 K
C)3.5 K
D)35 K
E)350 K

A)It has escaped into outer space.
B)It is bound up in the plant life on Earth.
C)It is bound up in rocks.
D)It is dissolved into the oceans.
E)It is still in the atmosphere in the form of complex molecules.

A)0.16 km/s
B)2.5 km/s
C)0.62 km/s
D)0.44 km/s
E)0.25 km/s

A)Water,H₂O (atomic mass = 18)
B)Carbon dioxide,CO₂ (atomic mass = 44)
C)Nitrogen (atomic mass = 28)
D)Oxygen (atomic mass = 32)
E)Hydrogen,H₂ (atomic mass = 2)

A)escape into outer space
B)remain in liquid form
C)vaporize and form clouds in the atmosphere
D)freeze
E)be absorbed into rocks

A)the troposphere and the thermosphere
B)the mesosphere and the stratosphere
C)the thermosphere and the stratosphere
D)the troposphere and the mesosphere
E)the troposphere and the stratosphere

A)ultraviolet
B)X-ray
C)gamma ray
D)infrared
E)microwave

A)zero
B)1⁄2 of what it is today
C)2 times what it is today
D)10 times what it is today
E)the same as it is today

A)snow
B)destruction of ozone
C)aurorae
D)acid rain
E)violent storms

A)rotate in the same direction
B)rotate in the opposite direction
C)move from east to west
D)have larger wind speeds
E)cause more damage

A)gases fluorescing in the atmosphere due to collisions with solar wind particles
B)the magnetosphere of Earth touching its atmosphere
C)the ozone layer being destroyed by UV light
D)a product of the atmospheric greenhouse effect
E)scattering of sunlight from particles in the Earth's stratosphere

A)4 billion years
B)1 billion years
C)400 million years
D)1 million years
E)Oxygen was always a primary component of the Earth's atmosphere.

A)convection driven by solar heating
B)heating from the solar wind
C)hurricanes developing along the planet's equator
D)a planet's rapid rotation
E)heating from the greenhouse effect

A)higher-energy particles in the solar wind
B)convection
C)the ozone layer absorbing UV light
D)charged particles trapped by magnetic fields
E)the greenhouse effect

A)Hadley circulation
B)the Coriolis effect
C)the heat of vaporization of water
D)electrical conductivity of water
E)the greenhouse effect

A)Carbon dioxide
B)Water vapor
C)Nitrogen
D)Oxygen
E)Helium

A)100 million;trees and plants
B)1 billion;trees and plants
C)250 million;bacteria and algae
D)2.5 billion;bacteria and algae
E)2,000;animals and humans

A)3 billion years ago
B)1 billion years ago
C)0.5 billion years ago
D)0.25 billion years ago
E)0.1 billion years ago

A)There should be almost no change in temperature.
B)by tens of K (like Earth)
C)by hundreds of K (like Mercury)
D)The answer depends on where Venus is in its orbit around the Sun.

A)troposphere
B)stratosphere
C)mesosphere
D)ionosphere
E)thermosphere

A)the Moon's tidal force
B)the solar wind
C)Earth's own gravity
D)asymmetries in the shape of Earth's core
E)Earth's elliptical orbit

A)life on Earth
B)Earth's plate tectonics
C)differences in the greenhouse effect
D)the presence of liquid water
E)differing distances from the Sun

A)the atmosphere would become less dense
B)oxygen would disappear from the atmosphere
C)the atmosphere would become hotter
D)nitrogen would disappear from the atmosphere
E)the amount of water vapor in the atmosphere would decrease

A)oxygen
B)methane
C)water vapor
D)oxygen,methane,or water vapor

A)global warming
B)the growth of the ozone hole
C)the burning of fossil fuels
D)increased energy output from the Sun
E)increased magnetic activity in the Sun

A)blue light from the sun is more readily scattered by molecules in the atmosphere than red light
B)of reflected light from the oceans
C)red light from the sun is more readily scattered by molecules in the atmosphere than blue light
D)molecules that make up the Earth's atmosphere radiate preferentially at blue wavelengths
E)the Sun radiates more blue light than other wavelengths

A)melts and forms liquid pools on the surface
B)boils off the surface and escapes into outer space
C)sublimates and goes directly into the gaseous phase
D)remains frozen because the temperature remains below the freezing point
E)melts and creates flowing rivers that erode the landscape

A)it is very slow
B)it is very slow and retrograde
C)its obliquity is 90 degrees
D)it is very fast
E)it is very fast and retrograde

A)the lack of CO₂ in its atmosphere
B)the lack of a magnetosphere
C)the lack of an atmosphere
D)the lack of geologic activity
E)its slow rotation rate

A)Venus rotates very rapidly,which causes strong zonal winds
B)Venus is covered by a thick cloud layer that absorbs most of the sunlight that falls on it
C)the carbon dioxide in Venus's atmosphere efficiently emits infrared radiation
D)Venus rotates slowly so Coriolis forces do not disrupt Hadley circulation
E)Venus's orbit is nearly perfectly circular

A)there is not enough oxygen in the atmosphere
B)the range in temperature between day and night is too large
C)the flux of ultraviolet radiation reaching the surface is too high
D)the atmospheric pressure would be too low
E)all of the above are valid reasons