Part 1: the terrestrial planets

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Transcription:

Mercury close up

Part 1: the terrestrial planets

The weird day on Mercury Weirdness is due to the fact that the rota:on period is comparable to period of revolu:on, and that they are related by the ra:o of 2/3 (see figure 10.3) An apparent solar day lasts 2 years! Only 2 longitudes have the noon when the planet is at perihelion ( hot poles ) Only 2 other longitudes have noon at aphelion ( warm poles ) From one of the hot poles, the Sun would rise quickly, linger around noon, then set fast

The Messenger mission to Mercury Launch: Aug. 3, 2004 1 st Mercury flyby: Jan. 2008 2 nd Mercury flyby: Oct. 2008 3 rd Mercury flyby: Sept. 2009 Orbital inser:on: Mar. 2011

A new age in the study of the planet Mercury the Messenger spacecrau: a base at Mercury

What we can learn from its high mean density, magne:c field, and surface photography from Mariner 10 and the Messenger spacecrau The geology of Mercury

The large core of Mercury (result from Messenger) Es:mates are iron core extends 85 % of way to surface

The surface of Mercury

Venus Earth s twin

Venus in ultraviolet light What is under The clouds?

The planet Venus: the Earth s twin (in a limited sense)

A comparison of Earth and Venus Semimajor axis of orbit: 0.7233 (V) 1.000 (E) Orbital eccentricity: 0.007 (V), 0.017 (E) Diameter: 12104 km (V) 12756 (E)! Mass: 0.815 Earth masses (V) 1.00 Earth masses (E)!! As spheres, Venus and Earth are very similar

Seeing through the clouds of Venus with Radio Astronomy!

The Goldstone (California) tracking sta:on and planetary radar

Radio astronomy and application of Kirchoff s Laws and Wien s Law allow us to measure the surface temperature of Venus (done first in the late 1950s) Surface temperature is 730K That corresponds to 855 degrees Fahrenheit What is responsible for this sort of temperature? The answer also lies in Kirchoff s Laws (the Greenhouse Effect)

The Magellan spacecraft explores the surface of Venus

Radar signals (radio waves) transmitted from radars on Earth or the Magellan spacecraft travel unimpeded through the cloud layers of Venus, bounce off the surface, and come back to us. They can map the terrain. What do they see? Radar signals can be used to measure the height of features on the surface of Venus, and the radar reflectivity. The radar reflectivity may be hard to interpret; it does not necessarily correlate with color, brightness or darkness, etc. The Magellan spacecraft orbited Venus and carried out a radar mapping during the period 1990-1994. It is still the best overall view we have of the surface of Earth s Twin

What the surface of Venus looks like

Let s begin with the Earth. What would it look like if your drained away the oceans? High, thick parts of the Earth s crust are the continental parts of the tectonic plates Lower, thinner parts of the crust are the ocean bottoms A striking feature would be the plate boundaries, where the plates are coming together or pulling apart A picture is worth a thousand words

The surface of the Earth (with no water)

And now, a similar view of Venus, thanks to the Magellan orbiter

Radar reflectivity: the terrain of Venus

Another way to look at things: a topographical map of Venus

What have we learned from our exploration of the surface of Venus? Some similarities: low flat areas that resemble ocean floors on Earth Two higher areas of thicker crust that resemble the continental portions of the crust on Earth. These are called Ishtar and Aphrodite, and are about the size of Australia Strangely, no sign of tectonic plate boundaries (absence of continental drift on Venus?)

The Continents of Venus Ishtar Terra ocean bottoms? Aphrodite Terra

What about craters? We have learned from the the Moon, the Earth, and Mercury that the presence (or absence) of craters is an important clue to the geological history of a planet.

Craters are present on Venus (all discovered by Magellan radar) But relatively few in number. Consistent with an exposure time of about 500 million years rather than 3-4 billion years

500 million year old surface exposure of Venus may point to an enormous, planet-wide eruption of lava at that time. Quote from book: to erase all preexisting impact craters, even large ones, the surface of Venus must have been covered with lava to a depth of several kilometers An event which may be similar is the lava eruptions which occurred at the end of the Permian Age on Earth (250 Myr ago). The end of the Permian was the largest mass extinction event in Earth s history A similar event (flood basalt) occurred on Earth at the :me of the Cretaceous- Ter:ary ex:nc:ons

A hint of the volcanism of Venus: The shield volcanoes of Venus

Remaining questions about Venus Why is the surface temperature so high? Did Venus ever have oceans like the Earth? If it did have them, where did they go? These questions may be related tune in next time

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