Jul 06, 2015
UPLOAD TO SLIDE SHARE ALL4OPEN ALL OF THESE-3 AM
• aaaaaaaaaaROCKEXAM aaaaaFELSIC PAGE 58
• Answers to tell class on Monday j5 ese 11 new
• And
• Characteristics of sedimentary rocks
• And
• Agends foe first payday open this Sunday and monday
NEXT H.W-metamorphic rock
• PAGE 106-EX 1
Page 109 –ex 2
Page 110-ex 3 and 4
Page 111-ex 5
Page 113-ex 6
Page 114-ex 7
Page 119-ex 8
Page 120-ex 9
NEXT H.W-metamorphic rock
• Page 122-ex 10
• Page 123-ex 11
• Page 124-ex 11-cont.
• Page 125-ex metamorphic study sheet
• Page 126-ex metamorphic study sheet
• Page 127 -152-read ahead is best
• Bowen’s reaction series• Ex 8-(a)• Continuous mixture @ 1400 degrees Celcius• Continuous mixture @ 800 degrees Celcius• Ca and Na effected by temp• Ex 8-(b)• Hot magma rises faster• And –passes into cold magma• Depression melting-no heat• Magma mixing-best answer
• 8 c. list the four major igneous rocks
• From high temp to low
• Igneous Felsic-800 celcius-iron and silicon
• Intermediate -1000 celcius
• Mafic -1400 celcius-magnesium and iron
• Ultra-mafic -1400
next class Ex 9-igneous rock-Page 63The Palisades rising above the Hudson
River
Location map of the Palisades Sill (red) within the Newark Basin (yellow)
• The outcrop of the Palisades Sill is quite recognizable for its prominent cliffs above the Hudson River; it is easily seen from the western portions of Manhattan
• The exposure is approximately 80 kilometers (50 mi) long, most of it following the Hudson River. It first emerges in Staten Island in New York City.[1] The sill then crosses the state line into New Jersey, where Hoboken, Jersey City, Union City, Fort Lee, and Englewood Cliffsall lie on it
• The sill eventually crosses back into New York, following the Hudson River north until reaching Haverstraw. It is at this point that the sill makes a turn to the west, where it disappears near Pomona. At this turn, the sill cuts across local strata, making it a dike in that area, not a sill.
• It has been proposed that the sill reemerges in two locations in Pennsylvania (where the outcrops are also discordant with local strata), but this idea is not generally agreed upon, and discussion of the Palisades Sill is usually limited to the exposure in New York and New Jersey.
Figure 11
• Separate host of granite from the mafic (Mg and Fe)
• Suggest a origin of these zones:
• 1. partial melting-produces basalt
• 2. magnetic differentiation is best answer: it separates early formed-denser material from magma
Figure 11
• 3. also assimilation: since as magma rises-it may add ions by melting
• As new material is incorporated –the magma composition may change enough to enable crystal to form –which might not ever been otherwise able to be produced
Figure 11
• 4. lastly-magma mixing-evidence suggests some intermediate rocks did not crystalize
• So they formed when-felsic and mafic were mixed
Figure 12
• Tectonic settings for major igneous rock types
Figure 12-TECTONIC SETTINGS
• Convergent boundaries
• Subduction zones
• Volcanic island arcs
• Andean –type mountains
Divergent boundaries
• Ocean hot-spot islands-basalt
• Ocean floors-basalt (MORB)
• Mid ocean ridges-basalt (MORB)
• Continental rift zones (Ryolite)
• Continents (granite, ryolite, basalt
• Ultra mafic rocks-Periodotites
• Mafic igneous rocks-Basalt and Gabbro
• Intermediate rocks-andestie and diorite
• Felsic rocks-granite and rhyolite
Ex 10-page 65
• Origin of mafic magmas
• A. mid ocean ridges
• B. continental rifts
• C. oceanic and continental volcanic arcs
• D. hot spots
Use table 3
• Origin of magmas in subduction zones
• Origin of granite and rhyolite in continental drifts
• Interpreting tectonic settings of igneous rocks
Google earth sites
• Yellowstone national park
• The palisades in new jersey
• Hawaii, an ocenic hot spot
• The central rift valley in iceland
• The cascade mountains
• The Sierra Nevada mountain
Today….Chapter 4
• 1.what kind of sediment can be produced from granite?
• 2. looking again at weathering products
• 3. weathering history recorded in clasts in sedimentary rocks
• 4.Simulating chemical sedimentary textures
Today….Chapter 4
• 5. distinguishing amoung compostional classes
Today….Chapter 4Identifying sedimentary rocks
• Hardness test
• Reaction with acid
• Analysis of texture
• Analysis of grain size
• Distinguishing between conglomerate and brecia
• Use table 1 and flow chart page 84
Today….Chapter 4
• 7. what could move clasts
• 8. interpreting sorting
• 9 recognizing the difference between conglomerate and brecia
• 10. recognizing sediment deposited by streams, wind, and glaciers
• 11. interpreting cements
Today….Chapter 4
• 12. gaining insite into depositional environments of sedimentary rocks
• 13. interpreting outcrops