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Igneous rocks

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Hasan Javed
Hasan Javed

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Formation
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By: Hasan javed
Igneous rocks are formed when magma(molten rock) solidifies at or under the surface of earth. o TYPES There are two types of igneous rocks: - Intrusive igneous rocks(also called plutonic rocks)  Formed when magma solidifies under the surface of earth.  Composed of coarse grained rocks , with grain size > 1mm.  The crystalline grains of plutonic rocks are commonly interlocked in mosaic pattern. - Extrusive igneous rocks(also called volcanic rocks)  Formed when magma solidifies at the surface of earth.  Composed of fine grained rocks, with grain size < 1mm.
Igneous rocks names are based on: - Mineralogical composition - Textural classification • Textural classification:- Because of their larger grain size, plutonic rocks can be easily identified from volcanic rocks. Both differ in grain size as well as cooling rate. • Mineralogical composition:- Rocks can be mine rally classified as: - Felsic rocks(having higher silica content i-e up to 70% & light colored minerals) includes granite-rhyolite. - Mafic rocks(composed of ferromagnesian silicates & are dark colored, contains low silica content ~50%) includes gabbro-basalt. - Intermediate rocks(containing almost equal amount of felsic & mafic minerals with silica content b/w 53-65%) includes diorite-andesite. - Ultramafic rocks(rich in iron and magnesium silicates with silica content < 45%) includes peridotite.
BASALT Mafic = Dark color Fine grained= Small crystals Extrusive = Small crystals = Formed on surface DIORITE Felsic = Light color Coarse grained= Large crystals Intrusive = Large crystals = Formed underground
PUMICE Felsic = Light color Fine grained= Small crystals Extrusive = Small crystals = Formed above ground GABBRO Mafic = Dark color Coarse grained= Large crystals Intrusive = Large crystals = formed underground
Magma type SiO2 content Classification General color Rhyolitic > 70% Felsic Light Andesitic ~ 60% Intermediate ½ light ½ dark Basaltic < 50% Mafic Dark 0% Ultramafic Dark / Green
• Intrusions or intrusive structures are bodies of intrusive rocks whose names are based on their shape and size as well as their relationships to the surrounding rocks. • Intrusion can either be deep or shallow depending on the depth at which magma cools/solidifies. - Dike:- Dike is a tabular, discordant intrusive structure. Discordant means that body is not parallel to any layering in the country rock. - Sill:- Sill is also a tabular structure but it is concordant i-e layering is parallel to country rock.
- Pluton:- Pluton is a body of magma that crystallizes at a considerable depth with in the surface of earth. - Stock:- A stock is a small discordant with a small outcrop area < 100 square kilometers. - Batholiths:- if outcrop area exceeds than 100 square kilometers, this large discordant body is called batholith. - Diapirs:- These are the large blobs of magma , that are less dense than surrounding rocks and rises up to upper crust due to this low density.
• Granite is the most abundant igneous rock in mountain ranges. It is also the most abundant igneous rock found in lowland continents.
If a rock is heated sufficiently , the rock begins to melt to form magma. Under ideal conditions, the rock can melt and yield a granitic magma at temperatures as low as 625 degree centigrade, whereas temperature of more than 1000 degree centigrade is required to form basaltic magma. - HEAT FOR MELTING ROCK :- Most of the heat that contributes to the generation of magma comes from the very hot earth’s core, which is brought to surface by: - Conduction through mantle and crust. - Convection currents - Or by geothermal gradient.
• The temperature at which solid rocks start to change their form into magma (or starts melting). - FACTORS:- - Pressure - Water vapors - Mixed minerals  Pressure The melting temperature increases with increasing pressure. The rocks that are deep inside earth require high pressure to melt than those at the surface.  Water vapors High vapor pressure can significantly lower the melting temperature. Water pressure sealed in under high pressure by overlaying rocks help break crystal structures.  Mixed minerals Few combinations of minerals can significantly lower the melting temperature from 100-200 degree centigrade.
• Explains the order in which minerals crystallize out of magma solution.
Left side - Iron-rich minerals - Discontinuous Crystallization Right side - Feldspar minerals - Continuous crystallization
• Magma can be evolved by: - Mixing of magma - Assimilation - Differentiation - Partial melting
Plate tectonics occur at three regions where igneous activity may happen. - Divergent boundary(associated with gabbro & basalt) - Convergent boundary(associated with granite & andesite) - Subduction zone (zone where felsic igneous rocks are formed)
• A hill or a mountain formed by the extrusion of lava or ejection of rock fragments from vent. • Lava:- Magma does not always reach the surface without solidifying but when it does, its called lava. • Pyroclast:- The rock fragments burst into the air by the gases entrapped by Lava. Pyroclastic debris is known as tephra . • Lava flows:- Outpouring of lava extended to earth’s surface.
• The opening of a volcano where the magma escapes to reach the earth’s surface
• The steep walled depression around a volcanoes vent.
heat and pressure changes the rock to melt forming liquid magma. Magmas less dense than rock, forced slowly towards earth’s surface.
• They often occur when Earth’s tectonic plates: • Move apart – divergent boundary • Move towards each other – convergent boundary • At “Hot Spots” – where crust of Earth is thinner than normal
• Shield volcanoes:- Shield volcanoes are broad gently sloping cones constructed of solidified lava. During eruption the lava spreads quickly due to its low viscosity. • Cinder cones:- Cinder cone is a volcano constructed of pyroclast ejected from the central vent. • Strato volcano:- Its also called composite volcano. It is formed from the alternative layering of pyroclastics and rock solidified from the lava flows.
- Circum pacific belt - Mediterranean belt
• Volcanic domes are steep sided dome or spine shaped masses of volcanic rocks formed from viscous lava that solidifies in or above the volcanic vent.
• Volcanic rock in parallel, usually vertical columns, mostly six sided; also called columnar jointing.
Igneous rocks

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Igneous rocks

  • 2.
  • 3. Igneous rocks are formed when magma(molten rock) solidifies at or under the surface of earth. o TYPES There are two types of igneous rocks: - Intrusive igneous rocks(also called plutonic rocks)  Formed when magma solidifies under the surface of earth.  Composed of coarse grained rocks , with grain size > 1mm.  The crystalline grains of plutonic rocks are commonly interlocked in mosaic pattern. - Extrusive igneous rocks(also called volcanic rocks)  Formed when magma solidifies at the surface of earth.  Composed of fine grained rocks, with grain size < 1mm.
  • 4. Igneous rocks names are based on: - Mineralogical composition - Textural classification • Textural classification:- Because of their larger grain size, plutonic rocks can be easily identified from volcanic rocks. Both differ in grain size as well as cooling rate. • Mineralogical composition:- Rocks can be mine rally classified as: - Felsic rocks(having higher silica content i-e up to 70% & light colored minerals) includes granite-rhyolite. - Mafic rocks(composed of ferromagnesian silicates & are dark colored, contains low silica content ~50%) includes gabbro-basalt. - Intermediate rocks(containing almost equal amount of felsic & mafic minerals with silica content b/w 53-65%) includes diorite-andesite. - Ultramafic rocks(rich in iron and magnesium silicates with silica content < 45%) includes peridotite.
  • 5. BASALT Mafic = Dark color Fine grained= Small crystals Extrusive = Small crystals = Formed on surface DIORITE Felsic = Light color Coarse grained= Large crystals Intrusive = Large crystals = Formed underground
  • 6. PUMICE Felsic = Light color Fine grained= Small crystals Extrusive = Small crystals = Formed above ground GABBRO Mafic = Dark color Coarse grained= Large crystals Intrusive = Large crystals = formed underground
  • 7.
  • 8. Magma type SiO2 content Classification General color Rhyolitic > 70% Felsic Light Andesitic ~ 60% Intermediate ½ light ½ dark Basaltic < 50% Mafic Dark 0% Ultramafic Dark / Green
  • 9. • Intrusions or intrusive structures are bodies of intrusive rocks whose names are based on their shape and size as well as their relationships to the surrounding rocks. • Intrusion can either be deep or shallow depending on the depth at which magma cools/solidifies. - Dike:- Dike is a tabular, discordant intrusive structure. Discordant means that body is not parallel to any layering in the country rock. - Sill:- Sill is also a tabular structure but it is concordant i-e layering is parallel to country rock.
  • 10.
  • 11. - Pluton:- Pluton is a body of magma that crystallizes at a considerable depth with in the surface of earth. - Stock:- A stock is a small discordant with a small outcrop area < 100 square kilometers. - Batholiths:- if outcrop area exceeds than 100 square kilometers, this large discordant body is called batholith. - Diapirs:- These are the large blobs of magma , that are less dense than surrounding rocks and rises up to upper crust due to this low density.
  • 12.
  • 13. • Granite is the most abundant igneous rock in mountain ranges. It is also the most abundant igneous rock found in lowland continents.
  • 14. If a rock is heated sufficiently , the rock begins to melt to form magma. Under ideal conditions, the rock can melt and yield a granitic magma at temperatures as low as 625 degree centigrade, whereas temperature of more than 1000 degree centigrade is required to form basaltic magma. - HEAT FOR MELTING ROCK :- Most of the heat that contributes to the generation of magma comes from the very hot earth’s core, which is brought to surface by: - Conduction through mantle and crust. - Convection currents - Or by geothermal gradient.
  • 15. • The temperature at which solid rocks start to change their form into magma (or starts melting). - FACTORS:- - Pressure - Water vapors - Mixed minerals  Pressure The melting temperature increases with increasing pressure. The rocks that are deep inside earth require high pressure to melt than those at the surface.  Water vapors High vapor pressure can significantly lower the melting temperature. Water pressure sealed in under high pressure by overlaying rocks help break crystal structures.  Mixed minerals Few combinations of minerals can significantly lower the melting temperature from 100-200 degree centigrade.
  • 16.
  • 17. • Explains the order in which minerals crystallize out of magma solution.
  • 18. Left side - Iron-rich minerals - Discontinuous Crystallization Right side - Feldspar minerals - Continuous crystallization
  • 19. Magma can be evolved by: - Mixing of magma - Assimilation - Differentiation - Partial melting
  • 20. Plate tectonics occur at three regions where igneous activity may happen. - Divergent boundary(associated with gabbro & basalt) - Convergent boundary(associated with granite & andesite) - Subduction zone (zone where felsic igneous rocks are formed)
  • 21.
  • 22.
  • 23. • A hill or a mountain formed by the extrusion of lava or ejection of rock fragments from vent. • Lava:- Magma does not always reach the surface without solidifying but when it does, its called lava. • Pyroclast:- The rock fragments burst into the air by the gases entrapped by Lava. Pyroclastic debris is known as tephra . • Lava flows:- Outpouring of lava extended to earth’s surface.
  • 24.
  • 25.
  • 26. • The opening of a volcano where the magma escapes to reach the earth’s surface
  • 27. • The steep walled depression around a volcanoes vent.
  • 28. heat and pressure changes the rock to melt forming liquid magma. Magmas less dense than rock, forced slowly towards earth’s surface.
  • 29. • They often occur when Earth’s tectonic plates: • Move apart – divergent boundary • Move towards each other – convergent boundary • At “Hot Spots” – where crust of Earth is thinner than normal
  • 30. • Shield volcanoes:- Shield volcanoes are broad gently sloping cones constructed of solidified lava. During eruption the lava spreads quickly due to its low viscosity. • Cinder cones:- Cinder cone is a volcano constructed of pyroclast ejected from the central vent. • Strato volcano:- Its also called composite volcano. It is formed from the alternative layering of pyroclastics and rock solidified from the lava flows.
  • 31.
  • 32.
  • 33. - Circum pacific belt - Mediterranean belt
  • 34. • Volcanic domes are steep sided dome or spine shaped masses of volcanic rocks formed from viscous lava that solidifies in or above the volcanic vent.
  • 35. • Volcanic rock in parallel, usually vertical columns, mostly six sided; also called columnar jointing.