Transcript Activity 3

10. The impact crater record on Venus is unusual because…
a) Venus is the only planet with no craters at all
b) The age of the surface seems larger than the age of the solar
system
c) All the impact craters were erased half a billion years ago
d) Only craters smaller than a few kilometers in size can be
found
e) No new craters have formed for 3.5 billion years
• Craters on Venus tell a strange story
– Only ~1000 craters - Randomly distributed
– Imply that the surface is only 700-800 Myr old
• Catastrophic resurfacing
• Continual removal
• Occurred over the entire planet
– What happened for the first 3.8 billion years on
Venus?
Heloise crater – 38 km
Balch crater – 40 km
• Most people thought the answer was ‘D’
– Only craters smaller than a few km are found
• The dense atmosphere screens out craters less
than 20 km in size

All craters > 3km in size


Atmosphere stops any smaller impacts from reaching
the surface
‘Burn’ marks on the surface (smooth areas) maybe the
result of impactors exploding in the atmosphere
16. Mars has the largest volcanoes in the solar system. Olympus Mons is over
20km high; nothing on the Earth (volcanic or otherwise) even comes close
to this. The main reason Mars can have such high mountains is…
a) Due to its weaker gravity which lowers the weight of the mountain
b) Due to its colder temperature which strengthens its surface rocks
c) Due to its thinner atmosphere, so the pressure on the mountains is less
d) Due to its different rock composition which happens to be stronger than
Earth’s
e) All of the above
• Mars is made from the same rocky stuff as the Earth
• Rocks on Earth and Mars are not near the melting
point – so temperature doesn’t matter
So is it the smaller weight of the atmosphere or the
smaller weight of the rocks?
How much does Earth’s atmosphere weigh?
•
•
•
•
Pressure is 105 pascals (which is weight per square meter)
That’s a mass of ~ 10,000 kg m-2 (divide by Earth’s gravity)
A cubic meter of rock has a mass of 3000 kg
So the weight of the atmosphere is about same as a layer
of rock 3.3m thick
Olympus Mons is 26,000m high
Would adding an extra 3m make much difference?
• It’s the gravity
• 26km of rock on Mars weighs about as much
as 9km of rock on the Earth
• Earth’s highest mountain is 8.8km high
20. Methane has been discovered recently in the martian atmosphere which
prompted some people to wonder if currently-living things on Mars
produced it. What are the alternative explanations?
a) Methane can be delivered to Mars by impacts of comets
b) This methane may have formed billions of years ago so it doesn’t mean life
exists today
c) The active volcanoes on Mars pump out methane
d) Methane is trapped in the polar ice which melts and releases it to the
atmosphere
e) Alteration of rocks deep underground by warm water can release methane
Methane
• Methane on Mars
– CH4
– Detected by telescopes
and Mars Express
• Why we care…
– Methane is destroyed quickly
– Lifetime of only a few centuries
– Implies continuous production
• So what’s making it?
– Life
• Cows? Unlikely…
• Chemolithotrophic microbial ecosystems
– Hydration of rocks
• Serpentinization – a geologic process
• Warm volcanic rock combines with water – releases
methane
25. Continents currently cover less than one third of the
surface of the Earth. The area of this continental crust
is…
a) Shrinking with time
b)Expanding with time
c) Holding steady for the past few billion years
d)Can go up or down depending on the situation
e) It depends on sea-level
• What happens when plates collide?
– All depends on density
– Oceanic crust has a higher density
than the continents
Continental
Ocean
Oceanic crust
crust
Mantle
• Three possible collisions
– Ocean-continent
– South America and the Nazca plate
– Ocean-ocean
– West pacific region
– Continent-continent
– India collides with Eurasia
Press & Siever, 2nd edition
• Famous Mariana trench
– Almost 11km below seas level
– Pressure > surface of Venus
– You could fit Mt. Everest in there
and still have a few km to spare!

New continental crust is created

Continental crust doesn’t subduct

Area of continents growing with time