The document summarizes various rock structures around the world, describing their composition, location, and uses. It discusses structures in Europe like the Colosseum (travertine), Arc de Triomphe (limestone), Bowerman's Nose (granite), and Devil's Organ Pipes (basalt). In North America it mentions Mount Rushmore (granite), Grand Canyon (limestone, shale), The Jug Rock (sandstone), and Old Man of the Mountain (granite). Structures in Asia described include the Great Wall of China (limestone, granite), India Gate (granite, sandstone), Amah Rock (granite), and Queen's Head (sandstone).
Types,manufacturing and behaviour of Dimension or decorative stoneZeeshan Afzal
Dimension stone
Definition:
Dimension stones are naturally occurring rocks of igneous, metamorphic and sedimentary origin which are sufficiently consolidated to enable them to be cut or shaped into blocks or slabs for use as wailing, paving and roofing material in the construction of building and other structures.
Rock Types:
Principally limestone (including marbles), sandstone, slates and granite are used as dimension stone.
Texture, Minerology and Colour:
Dimension Stone shows a wide variety of texture and minerology depending on their origin. Colour is an important aspect but does not follow agreed and standard colour scheme.
Types:
Igneous Dimension Stone.
Sedimentary Dimension Stone.
Metamorphic Dimension Stone.
Miscellaneous Dimension Stone.
Igneous Dimension Stone:
These are hard and crystalline and widely used as dimension stones but commonly termed as granite by trade.
Igneous rocks show a range from pale coloured, coarsely crystalline, quartzo feldspathic varieties to dark coloured, fine grained, basaltic rock type.
Sedimentary Dimension Stone:
Sedimentary rocks include our most common dimension stones. Sandstone and Limestone are most common in them.
These are formed by cementing of pre-existing igneous rocks and high quartz content in them makes them hard and durable building stone.
Metamorphic Dimension Stone:
These are not widely used commercially as dimension stone but are fine grained.
Cleaved slates are the principal source of roofing stone worldwide.
Included in the metamorphic rocks are the true marbles.
Miscellaneous Dimension Stone:
Some texturally and minerologically distinctive rocks are used for decorative building purposes include ironstone, flint, tufa, etc.
Extraction Method and Processing:
Extraction Method and Processing:Stone Processing:
Processing of stone is begins at the quarry or following transportation to centralized cutting sheds depending on the requirement of the contract.
Softer stones such as limestone can be shaped and dressed using hand or cut using hand saws.
Harder stones may need to be sawn using frame saws, gang saws, diamond rotary blades, high pressure water jets, etc.
Surface finishing of some stones can involve polishing using abrasive and flamejet texturing.
Classification and Uses
Types,manufacturing and behaviour of Dimension or decorative stoneZeeshan Afzal
Dimension stone
Definition:
Dimension stones are naturally occurring rocks of igneous, metamorphic and sedimentary origin which are sufficiently consolidated to enable them to be cut or shaped into blocks or slabs for use as wailing, paving and roofing material in the construction of building and other structures.
Rock Types:
Principally limestone (including marbles), sandstone, slates and granite are used as dimension stone.
Texture, Minerology and Colour:
Dimension Stone shows a wide variety of texture and minerology depending on their origin. Colour is an important aspect but does not follow agreed and standard colour scheme.
Types:
Igneous Dimension Stone.
Sedimentary Dimension Stone.
Metamorphic Dimension Stone.
Miscellaneous Dimension Stone.
Igneous Dimension Stone:
These are hard and crystalline and widely used as dimension stones but commonly termed as granite by trade.
Igneous rocks show a range from pale coloured, coarsely crystalline, quartzo feldspathic varieties to dark coloured, fine grained, basaltic rock type.
Sedimentary Dimension Stone:
Sedimentary rocks include our most common dimension stones. Sandstone and Limestone are most common in them.
These are formed by cementing of pre-existing igneous rocks and high quartz content in them makes them hard and durable building stone.
Metamorphic Dimension Stone:
These are not widely used commercially as dimension stone but are fine grained.
Cleaved slates are the principal source of roofing stone worldwide.
Included in the metamorphic rocks are the true marbles.
Miscellaneous Dimension Stone:
Some texturally and minerologically distinctive rocks are used for decorative building purposes include ironstone, flint, tufa, etc.
Extraction Method and Processing:
Extraction Method and Processing:Stone Processing:
Processing of stone is begins at the quarry or following transportation to centralized cutting sheds depending on the requirement of the contract.
Softer stones such as limestone can be shaped and dressed using hand or cut using hand saws.
Harder stones may need to be sawn using frame saws, gang saws, diamond rotary blades, high pressure water jets, etc.
Surface finishing of some stones can involve polishing using abrasive and flamejet texturing.
Classification and Uses
This PowerPoint is one small part of the Geology Topics unit from www.sciencepowerpoint.com. This unit consists of a five part 6000+ slide PowerPoint roadmap, 14 page bundled homework package, modified homework, detailed answer keys, 12 pages of unit notes for students who may require assistance, follow along worksheets, and many review games. The homework and lesson notes chronologically follow the PowerPoint slideshow. The answer keys and unit notes are great for support professionals. The activities and discussion questions in the slideshow are meaningful. The PowerPoint includes built-in instructions, visuals, and review questions. Also included are critical class notes (color coded red), project ideas, video links, and review games. This unit also includes four PowerPoint review games (110+ slides each with Answers), 38+ video links, lab handouts, activity sheets, rubrics, materials list, templates, guides, 6 PowerPoint review Game, and much more. Also included is a 190 slide first day of school PowerPoint presentation.
Areas of Focus within The Geology Topics Unit: -Plate Tectonics, Evidence for Plate Tectonics, Pangea, Energy Waves, Layers of the Earth, Heat Transfer, Types of Crust, Plate Boundaries, Hot Spots, Volcanoes, Positives and Negatives of Volcanoes, Types of Volcanoes, Parts of a Volcano, Magma, Types of Lava, Viscosity, Earthquakes, Faults, Folds, Seismograph, Richter Scale, Seismograph, Tsunami's, Rocks, Minerals, Crystals, Uses of Minerals, Types of Crystals, Physical Properties of Minerals, Rock Cycle, Common Igneous Rocks, Common Sedimentary Rocks, Common Metamorphic Rocks.
This unit aligns with the Next Generation Science Standards and with Common Core Standards for ELA and Literacy for Science and Technical Subjects. See preview for more information
If you have any questions please feel free to contact me. Thanks again and best wishes. Sincerely, Ryan Murphy M.Ed www.sciencepowerpoint@gmail.com
Building stones are naturally occurring rocks of igneous, sedimentary or metamorphic origin which are sufficiently consolidated to enable them to be cut or shaped into blocks or slabs for use as walling, paving or roofing materials in the construction of buildings and other structures.
THIS PPT WAS MADE FOR ACADEMIC PURPOSE IN BUILDING CONSTRUCTION SUBJECT
building materials1_architecture_Classification of rocks, Sources, Seasoning, Quarrying of stones, Dressing, Characteristics of
stones, Testing of stones, Common building stones and their uses. Masonary and paving. Stone
veneering, preservation of stones Deterioration of stones, Durability, Preservation, Selection of
stones, Artificial stones.
Jade is the gem name for mineral aggregates composed of either or both of two different minerals, Jadeite and Nephrite. Jadeite is a sodium-rich aluminous pyroxene; nephrite is a fine-grained, calcium-rich, magnesium, iron, aluminous amphibole. All jade is composed of fine-grained, highly intergrown, interlocking crystals of one or both of these minerals. Though neither mineral is very hard (6-7), jade is one of the toughest gem minerals known because of the intergrown nature of the individual crystals.
Stones are naturally occurring rocks of igneous, sedimentary or metamorphic origin.
Most of the rocks are sufficiently consolidated to enable them to be cut or made into various shapes and blocks or slabs to be used walling, paving or roofing materials. Rocks are mostly used in the construction of buildings and hundreds of structures. Stones are categorised into building stones, ornamental stones and dimension stones.
Understanding of Building materials, its behaviour and uses are extremely important for the students of Architecture and Interior Designing. Hence, I tried to introduce the 1st year students with the 1st building material they are going to learn in college, stone as a building material. The presentation covers almost all the factors related to this material class with a focus on the capability of 1st year students.
This PowerPoint is one small part of the Geology Topics unit from www.sciencepowerpoint.com. This unit consists of a five part 6000+ slide PowerPoint roadmap, 14 page bundled homework package, modified homework, detailed answer keys, 12 pages of unit notes for students who may require assistance, follow along worksheets, and many review games. The homework and lesson notes chronologically follow the PowerPoint slideshow. The answer keys and unit notes are great for support professionals. The activities and discussion questions in the slideshow are meaningful. The PowerPoint includes built-in instructions, visuals, and review questions. Also included are critical class notes (color coded red), project ideas, video links, and review games. This unit also includes four PowerPoint review games (110+ slides each with Answers), 38+ video links, lab handouts, activity sheets, rubrics, materials list, templates, guides, 6 PowerPoint review Game, and much more. Also included is a 190 slide first day of school PowerPoint presentation.
Areas of Focus within The Geology Topics Unit: -Plate Tectonics, Evidence for Plate Tectonics, Pangea, Energy Waves, Layers of the Earth, Heat Transfer, Types of Crust, Plate Boundaries, Hot Spots, Volcanoes, Positives and Negatives of Volcanoes, Types of Volcanoes, Parts of a Volcano, Magma, Types of Lava, Viscosity, Earthquakes, Faults, Folds, Seismograph, Richter Scale, Seismograph, Tsunami's, Rocks, Minerals, Crystals, Uses of Minerals, Types of Crystals, Physical Properties of Minerals, Rock Cycle, Common Igneous Rocks, Common Sedimentary Rocks, Common Metamorphic Rocks.
This unit aligns with the Next Generation Science Standards and with Common Core Standards for ELA and Literacy for Science and Technical Subjects. See preview for more information
If you have any questions please feel free to contact me. Thanks again and best wishes. Sincerely, Ryan Murphy M.Ed www.sciencepowerpoint@gmail.com
This PowerPoint is one small part of the Geology Topics unit from www.sciencepowerpoint.com. This unit consists of a five part 6000+ slide PowerPoint roadmap, 14 page bundled homework package, modified homework, detailed answer keys, 12 pages of unit notes for students who may require assistance, follow along worksheets, and many review games. The homework and lesson notes chronologically follow the PowerPoint slideshow. The answer keys and unit notes are great for support professionals. The activities and discussion questions in the slideshow are meaningful. The PowerPoint includes built-in instructions, visuals, and review questions. Also included are critical class notes (color coded red), project ideas, video links, and review games. This unit also includes four PowerPoint review games (110+ slides each with Answers), 38+ video links, lab handouts, activity sheets, rubrics, materials list, templates, guides, 6 PowerPoint review Game, and much more. Also included is a 190 slide first day of school PowerPoint presentation.
Areas of Focus within The Geology Topics Unit: -Plate Tectonics, Evidence for Plate Tectonics, Pangea, Energy Waves, Layers of the Earth, Heat Transfer, Types of Crust, Plate Boundaries, Hot Spots, Volcanoes, Positives and Negatives of Volcanoes, Types of Volcanoes, Parts of a Volcano, Magma, Types of Lava, Viscosity, Earthquakes, Faults, Folds, Seismograph, Richter Scale, Seismograph, Tsunami's, Rocks, Minerals, Crystals, Uses of Minerals, Types of Crystals, Physical Properties of Minerals, Rock Cycle, Common Igneous Rocks, Common Sedimentary Rocks, Common Metamorphic Rocks.
This unit aligns with the Next Generation Science Standards and with Common Core Standards for ELA and Literacy for Science and Technical Subjects. See preview for more information
If you have any questions please feel free to contact me. Thanks again and best wishes. Sincerely, Ryan Murphy M.Ed www.sciencepowerpoint@gmail.com
Building stones are naturally occurring rocks of igneous, sedimentary or metamorphic origin which are sufficiently consolidated to enable them to be cut or shaped into blocks or slabs for use as walling, paving or roofing materials in the construction of buildings and other structures.
THIS PPT WAS MADE FOR ACADEMIC PURPOSE IN BUILDING CONSTRUCTION SUBJECT
building materials1_architecture_Classification of rocks, Sources, Seasoning, Quarrying of stones, Dressing, Characteristics of
stones, Testing of stones, Common building stones and their uses. Masonary and paving. Stone
veneering, preservation of stones Deterioration of stones, Durability, Preservation, Selection of
stones, Artificial stones.
Jade is the gem name for mineral aggregates composed of either or both of two different minerals, Jadeite and Nephrite. Jadeite is a sodium-rich aluminous pyroxene; nephrite is a fine-grained, calcium-rich, magnesium, iron, aluminous amphibole. All jade is composed of fine-grained, highly intergrown, interlocking crystals of one or both of these minerals. Though neither mineral is very hard (6-7), jade is one of the toughest gem minerals known because of the intergrown nature of the individual crystals.
Stones are naturally occurring rocks of igneous, sedimentary or metamorphic origin.
Most of the rocks are sufficiently consolidated to enable them to be cut or made into various shapes and blocks or slabs to be used walling, paving or roofing materials. Rocks are mostly used in the construction of buildings and hundreds of structures. Stones are categorised into building stones, ornamental stones and dimension stones.
Understanding of Building materials, its behaviour and uses are extremely important for the students of Architecture and Interior Designing. Hence, I tried to introduce the 1st year students with the 1st building material they are going to learn in college, stone as a building material. The presentation covers almost all the factors related to this material class with a focus on the capability of 1st year students.
This PowerPoint is one small part of the Geology Topics unit from www.sciencepowerpoint.com. This unit consists of a five part 6000+ slide PowerPoint roadmap, 14 page bundled homework package, modified homework, detailed answer keys, 12 pages of unit notes for students who may require assistance, follow along worksheets, and many review games. The homework and lesson notes chronologically follow the PowerPoint slideshow. The answer keys and unit notes are great for support professionals. The activities and discussion questions in the slideshow are meaningful. The PowerPoint includes built-in instructions, visuals, and review questions. Also included are critical class notes (color coded red), project ideas, video links, and review games. This unit also includes four PowerPoint review games (110+ slides each with Answers), 38+ video links, lab handouts, activity sheets, rubrics, materials list, templates, guides, 6 PowerPoint review Game, and much more. Also included is a 190 slide first day of school PowerPoint presentation.
Areas of Focus within The Geology Topics Unit: -Plate Tectonics, Evidence for Plate Tectonics, Pangea, Energy Waves, Layers of the Earth, Heat Transfer, Types of Crust, Plate Boundaries, Hot Spots, Volcanoes, Positives and Negatives of Volcanoes, Types of Volcanoes, Parts of a Volcano, Magma, Types of Lava, Viscosity, Earthquakes, Faults, Folds, Seismograph, Richter Scale, Seismograph, Tsunami's, Rocks, Minerals, Crystals, Uses of Minerals, Types of Crystals, Physical Properties of Minerals, Rock Cycle, Common Igneous Rocks, Common Sedimentary Rocks, Common Metamorphic Rocks.
This unit aligns with the Next Generation Science Standards and with Common Core Standards for ELA and Literacy for Science and Technical Subjects. See preview for more information
If you have any questions please feel free to contact me. Thanks again and best wishes. Sincerely, Ryan Murphy M.Ed www.sciencepowerpoint@gmail.com
What 33 Successful Entrepreneurs Learned From FailureReferralCandy
Entrepreneurs encounter failure often. Successful entrepreneurs overcome failure and emerge wiser. We've taken 33 lessons about failure from Brian Honigman's article "33 Entrepreneurs Share Their Biggest Lessons Learned from Failure", illustrated them with statistics and a little story about entrepreneurship... in space!
SEO has changed a lot over the last two decades. We all know about Google Panda & Penguin, but did you know there was a time when search engine results were returned by humans? Crazy right? We take a trip down memory lane to chart some of the biggest events in SEO that have helped shape the industry today.
How People Really Hold and Touch (their Phones)Steven Hoober
For the newest version of this presentation, always go to: 4ourth.com/tppt
For the latest video version, see: 4ourth.com/tvid
Presented at ConveyUX in Seattle, 7 Feb 2014
For the newest version of this presentation, always go to: 4ourth.com/tppt
For the latest video version, see: 4ourth.com/tvid
We are finally starting to think about how touchscreen devices really work, and design proper sized targets, think about touch as different from mouse selection, and to create common gesture libraries.
But despite this we still forget the user. Fingers and thumbs take up space, and cover the screen. Corners of screens have different accuracy than the center. It's time to re-evaluate what we think we know.
Steven reviews his ongoing research into how people actually interact with mobile devices, presents some new ideas on how we can design to avoid errors and take advantage of this new knowledge, and leaves you with 10 (relatively) simple steps to improve your touchscreen designs tomorrow.
You are dumb at the internet. You don't know what will go viral. We don't either. But we are slighter less dumber. So here's a bunch of stuff we learned that will help you be less dumb too.
An impactful approach to the Seven Deadly Sins you and your Brand should avoid on Social Media! From a humoristic approach to a modern-life analogy for Social Media and including everything in between, this deck is a compelling resource that will provide you with more than a few take-aways for your Brand!
The What If Technique presented by Motivate DesignMotivate Design
Why "What If"...?
The What If Technique tackles the challenge of engaging a creative, disruptive mindset when it comes to design thinking and crafting innovative user experiences.
Thinking disruptively is a disruptive thing to do, which means it's a very hard thing to do, especially when you add in risk-averse business leaders and company cultures, who hold on tight to psychological blocks, corporate lore, and excuse personas that stifle creativity and possibilities (see www.motivatedesign.com/what-if for more details).
The What If Technique offers key steps, tools and examples to help you achieve incremental changes that promote disruptive thinking, overcome barriers to creativity, and lead to big, innovative differences for business leaders, companies, and ultimately user experiences and products.
Let's find out what's what together! Explore your "What Ifs" with us. See www.motivatedesign.com/what-if for details about the What If Technique, studio workshops, the book, case studies and more downloads--including a the sample chapter "Corporate Lore and Blocks to Creativity"
Connect with us @Motivate_Design
Inside this guide, you'll learn an insiders tips and techniques to getting into the marketing industry - no job applications necessary.
You'll learn what marketing really is, why you'll find a job easily, what entry level marketing jobs look like and four actionable things you can try right now to help get you into the marketing industry.
Visit Inbound.org and the Inbound.org/jobs community jobs board to find opportunities and connect with professional marketers from all over.
Ancient artifacts and buildings - mysteries of the past - part 2Kinga Brady
An ongoing collection of artefacts, building of our long-lost past - there are two parts. This is a personal collection of our ancient history - crazy questions that follow question the official theories
3. The Colosseum The Roman Colosseum is made from a sedimentary rock, called travertine. It is a chemical rock. Travertine is usually used for tiling, flooring, kitchen counter tops, and etc. The Colosseum was first constructed during 70AD, and was opened in 80AD. It was originally called the Flavian Amphitheatre.
4. Arc de Triomphe The Arc de Triomphe is a sedimentary rock. It is made out of limestone, and the subtype of the rock is either chemical or organic. Limestone can be used for concrete and cement for buildings, roads, and etc. The construction of the Arc de Triomphe was stopped until the King Louis-Philippe reigned, in 1833-1836.
5. Bowerman’s Nose The Bowerman’s Nose is an igneous rock, and it is intrusive. It is a pile of granite stacked on top of each other, so it is a natural structure. People use granite for countertops, floor tiles, and etc. If you use some imagination you could see an outline of a human face, and it is located in Dartmoor, Great Britain.
6. Devil’s Organ Pipes The Devil’s Organ Pipes are igneous rocks, it is extrusive, and the name of the rock is basalt. People use basalt for floor tiles, asphalt, and etc. This naturally occurring rock structure is located in Northern Ireland, and towers over the Giant’s Causeway in County Antrim, Northern Ireland.
8. Mount Rushmore Mount Rushmore is carved on an igneous rock called granite, and it is an intrusive rock. People use granite for countertops, monuments, floor tiles, and etc. To construct Mount Rushmore, the workers had to first blast away rocks with dynamite. Then they had to sit on “swing seats” and use other tools to finish sculpting it.
9. Grand Canyon The Grand Canyon is a sedimentary rock and metamorphic rock, the names of the rocks are limestone, slate, shale, and mudstone. It is organic/chemical, clastic, and foliated. People use limestone for buildings, and even bread and toothpaste. The Grand Canyon use to be part of the Colorado River.
10. The Jug Rock The Jug Rock is a clastic sedimentary rock, and the rock name is called sandstone. Sandstone can be used for countertops, floor tiles, concrete, buildings, and etc. The Jug Rock near the East Fork of White River in Indiana, U.S. It looks like a jug with a lid on it.
11. Old Man of the Mountain The Old Man of the Mountain is an igneous rock, it is called granite, and is intrusive. People can use granite for countertops, tombstones, floor tiles buildings, and etc. The Old Man extends from the Profile Mountain, above Profile Lake, located in New Hampshire, U.S., but it shattered during 2003, due to erosion.
13. Great Wall of China The Great Wall of China is made of igneous, sedimentary, and metamorphic rocks. The Great Wall was built with whatever material that was close by to that area. The Badaling area of Beijing, was restored using sedimentary rocks and igneous rocks. The sedimentary rocks are mudstones, sandstones, and limestones. The igneous rocks include granite. Mudstone could be used for the clay to put bricks and ceramics together, sandstone could be used for artificial lagoons, and limestone can be used for glass. The Great wall was built, then rebuilt, and conserved between the 5th century BC and the 16th century to protect the Chinese Empire.
14. India Gate The India Gate is made of granite and red sandstone, which is igneous and sedimentary, and it is intrusive and clastic. Granite could be used for countertops, and sandstone can be used for buildings. The India Gate is a national monument of India. It was constructed to commemorate the 90,000 soldiers British Indian soldiers who lost their live during the British Indian Empire.
15. Amah Rock The Amah Rock is a granite rock located on a hill near ShaTin in Kowloon Hong Kong. It is an igneous rock that is intrusive. Granite can be used for graves. As stated in the legend, there was a fisherman’s wife and their son waiting for the fisherman to come back, but he never did, so the gods took pity on her and turned her and her son to stone.
16. Queen’s Head The Queen’s Head is made of thick sandstone. It is a sedimentary rock, and it is clastic. Sandstone could be used for bricks. The Queen’s Head is somewhere along the coastal area of Taipei’s county Yehliu. There are many rock formations that are named after objects that they appear like, such as a fairy shoe and a candlestick.
18. The Gateway of the Sun The Gateway of the Sun was carved from a block of Andesite granite. It is intrusive, and it is an igneous rock. Granite can be used for monuments. The Sun Gate is sometimes specified as the “Weeping God” because of the tears on his cheek. This huge figure was created about 2200 years ago.
19. Christ the Redeemer Christ the Redeemer was completed during 1931. It is a metamorphic rock, it is called soapstone, it’s primarily talc-schist, and it’s foliated. During 2008 the statue was struck by lightning, but it escaped damage because of the outer layer of soapstone.
20. Colca Canyon The Colca Canyon located in Peru, is twice as deep as the Grand Canyon. It is made up of layers of igneous, and sedimentary rocks. The Colca valley hasn’t been explored again until 1930. it has been known for many types of name: The Lost Valley of Incas, The Valley of Wonders, The Valley of Fire, and The Territory of the Condor.
21. Mount Huascaran Mount Huascaran is the highest mountain in Peru. It is made of up of sedimentary and igneous rocks, and it is intrusive, and organic. It is sedimentary because there used to be a coal mine, and it contains diorite. The mountain includes 663 glaciers, 41tributaries, 269 lakes, home to over 779 species of plants, 112 species of birds, and many more endangered animals. During 1970 the Ancash earthquake caused an avalanche on the Huascaran, and killed more than 20,000 people.
23. Gympie Pyramid The Gympie Pyramid is made of sandstone, so it is a clastic sedimentary rock. It can be used for monuments. Some people believed that the pyramid was built by Egyptians, and others thought it built by farmers.
24. Sydney Opera House Roof The Sydney Opera House roof is made of concrete, and is an artificial sedimentary rock, since it’s not made by nature. The Podium of the structure had to be rebuilt to carry the weight of the roof.
25. Wave Rock The Wave Rock is made of granite which is an intrusive igneous rock. Granite could be used for sculptures. It is 15 meters high and 110 meter long, and it is located in Western Australia.
26. Devils Marbles The Devils Marbles are about 400km north of Alice Springs. It is an igneous rock, and it’s granite. It is an intrusive rock. It can be used for stone facings. The Devils Marbles are known as Karlu Karlu in all 4 aboriginal languages.
28. The Great Pyramids of Giza The Great Pyramids of Giza are also called the Pyramid of Khufu and the Pyramid of Cheops. It is made of white, polished limestone. It is a sedimentary rock, and it could be a chemical or organic structure. Limestones can be used for cereals and bread. It is believed that the pyramids was made for being the tomb for the fourth dynasty Egyptian Pharaoh Khufu.
29. Fasiledes’s Castle The Fasiledes’s Castle is made of sandstone, which is a clastic sedimentary rock. It can be used for molds for tools.
30. Maltese Cross Rock The Maltese Cross Rock contains sandstone, and it located in the Cedarberg mountains. It is a clastic sedimentary rock.
31. Three Rondavels The Three Rondavels are located in Blyde Canyon. They are made of quartzite and shale, and they are non-foliated metamorphic rocks and clastic sedimentary rocks. Quartzite can be used for walls. The Three Rondavels were known as “The Chief and his three wives.”
33. Mount Kirkpatrick Formation Mount Kirkpatrick has numerous layers. The most upper layer is made of basalt, which is an extrusive igneous rock, the Hansen Formation(which is the next layer) is made of sandstone, which is a clastic sedimentary rock, and the other layers are either igneous rocks or ganister. Basalt can be used for window sills.
34. Castle Rock The Castle Rock is made of basalt, which is an extrusive igneous rock. Basalt is used for roads.
35. Extra Questions What is the difference between a man made and naturally occurring rock formation? A man made structure is something humans design and build, while a natural rock formation is made by nature. What are the purposes of man made rock formations? Why would people build rock structures? People build rock formations for memorials, monuments, and living purposes. How do naturally occurring rock formations/structures form? They go through cooling and heating, weathering, erosion, deposition, compaction, cementation, and pressure.
36. Sites I Got Pics and Info From Title Pic: http://www.google.com/imgres?imgurl=http://threewebe.typepad.com/planning_the_escape/images/dsc_0051.jpg&imgrefurl=http://threewebe.typepad.com/planning_the_escape/new_zealand/&usg=__AqRNugUd_sZVAe1NnAc6DoAnr8U=&h=382&w=575&sz=244&hl=en&start=0&zoom=1&tbnid=L0Tg4ukWN6EQEM:&tbnh=131&tbnw=197&prev=/images%3Fq%3Drocks%2Baround%2Bthe%2Bworld%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=hc&vpx=754&vpy=284&dur=1380&hovh=183&hovw=276&tx=79&ty=101&ei=_yqATP-HNsH38AbGrIBu&oei=_yqATP-HNsH38AbGrIBu&esq=1&page=1&ndsp=23&ved=1t:429,r:11,s:0 The Colosseum: http://www.fotopedia.com/items/flickr-267442535, http://www.answerbag.com/q_view/1955194 Arc de Triomphe: http://www.google.com/imgres?imgurl=http://images.cdn.fotopedia.com/flickr-2619781448-hd.jpg&imgrefurl=http://www.fotopedia.com/items/flickr-2619781448&usg=__Rz95waU2ohpOsXAzzcTh40NViDo=&h=1080&w=1440&sz=383&hl=en&start=103&zoom=1&um=1&itbs=1&tbnid=mKYemX-mooFaGM:&tbnh=113&tbnw=150&prev=/images%3Fq%3Dmodern%2Bmonument%26start%3D100%26um%3D1%26hl%3Den%26safe%3Dactive%26sa%3DN%26rls%3Dcom.microsoft:en-us%26as_st%3Dy%26ndsp%3D20%26tbs%3Disch:1,iur:f, http://unasked.com/question/view/id/17673 Bowerman’s Nose, Devil’s Organ Pipe, Jug Rock, Amah Rock, Old Man of the Mountain, Queens Head: http://scienceray.com/earth-sciences/geology/famous-rock-formations/ Mount Rushmore: http://www.enchantedlearning.com/history/us/monuments/mtrushmore/ Grand Canyon: http://www.bobspixels.com/kaibab.org/geology/gc_geol.htm Old Man of the Mountains: http://www.google.com/imgres?imgurl=http://farm3.static.flickr.com/2156/2122850294_ae1733bac2.jpg&imgrefurl=http://flickr.com/photos/21051753%40N05/2122850294&usg=__P_KC8hUXDvunDW5txRFV1hVj2lA=&h=500&w=443&sz=52&hl=en&start=0&zoom=0&tbnid=eZmPiTYmLXLsVM:&tbnh=130&tbnw=115&prev=/images%3Fq%3Dold%2Bman%2Bof%2Bthe%2Bmountain%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=hc&vpx=1278&vpy=425&dur=4012&hovh=130&hovw=115&tx=101&ty=109&ei=k32BTOe4MYG78gbK29mdBQ&oei=Zn2BTNvjC4P_8AaP_7hS&esq=8&page=1&ndsp=25&ved=1t:429,r:23,s:0
37. The Jug Rock: http://www.google.com/imgres?imgurl=http://upload.wikimedia.org/wikipedia/en/b/ba/Jug_Rock.jpg&imgrefurl=http://en.wikipedia.org/wiki/File:Jug_Rock.jpg&usg=__2HlnDDDW1cG__rppbNoVmCUIdwI=&h=269&w=228&sz=17&hl=en&start=0&zoom=0&tbnid=uw6hHdayhiZLlM:&tbnh=113&tbnw=96&prev=/images%3Fq%3Djug%2Brock%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=hc&vpx=154&vpy=163&dur=670&hovh=113&hovw=96&tx=73&ty=80&ei=o3aBTJGwJoP-8Aby-qhl&oei=o3aBTJGwJoP-8Aby-qhl&esq=1&page=1&ndsp=21&ved=1t:429,r:0,s:0 Great Wall of China: http://www.google.com/imgres?imgurl=http://farm3.static.flickr.com/2245/2424798123_1ae96a61c6_z.jpg%3Fzz%3D1&imgrefurl=http://www.flickr.com/photos/chanc/2424798123/&usg=__bxGSwInZolXZ6kUHPqNjFV3VxyM=&h=420&w=640&sz=180&hl=en&start=0&zoom=1&tbnid=3G_cQVmwZsU-WM:&tbnh=145&tbnw=205&prev=/images%3Fq%3Dgreat%2Bwall%2Bof%2Bchina%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=rc&dur=148&ei=EpuBTMqKCsP98Aan-Nhm&oei=EpuBTMqKCsP98Aan-Nhm&esq=1&page=1&ndsp=24&ved=1t:429,r:1,s:0&tx=80&ty=70 India Gate: http://www.google.com/imgres?imgurl=http://farm1.static.flickr.com/98/260909093_35fb0d5eac.jpg%3Fv%3D0&imgrefurl=http://flickr.com/photos/24086895%40N00/260909093&usg=__rFlakyKeb0nSjgnebWtdo0oe6Ec=&h=500&w=334&sz=78&hl=en&start=24&zoom=0&tbnid=aqByEPVVbyOD1M:&tbnh=130&tbnw=87&prev=/images%3Fq%3Dindia%2Bgate%26um%3D1%26hl%3Den%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f0%2C195&um=1&itbs=1&iact=hc&vpx=1266&vpy=441&dur=839&hovh=130&hovw=87&tx=113&ty=111&ei=SpuBTLfgOIH_8AaHy_ybAg&oei=P5uBTO29MsL68AaUzpFv&esq=2&page=2&ndsp=25&ved=1t:429,r:6,s:24&biw=1575&bih=650 , http://en.wikipedia.org/wiki/India_Gate Amah Rock: http://www.google.com/imgres?imgurl=http://upload.wikimedia.org/wikipedia/commons/f/f4/HKHistory_Amah_Rock_MongFuShek.jpg&imgrefurl=http://commons.wikimedia.org/wiki/File:HKHistory_Amah_Rock_MongFuShek.jpg&usg=__sG6kyD7Wb7Bn3u9fuHxCPcqVJFs=&h=1769&w=2400&sz=760&hl=en&start=0&zoom=0&tbnid=kPlXeM3yQd1KvM:&tbnh=108&tbnw=141&prev=/images%3Fq%3Damah%2Brock%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f0%2C98&um=1&itbs=1&iact=hc&vpx=463&vpy=144&dur=75&hovh=111&hovw=150&tx=80&ty=108&ei=45-BTOeCN4L_8AaR26BW&oei=45-BTOeCN4L_8AaR26BW&esq=1&page=1&ndsp=19&ved=1t:429,r:2,s:0&biw=1575&bih=650
38. Queens Head: http://www.google.com/imgres?imgurl=http://farm4.static.flickr.com/3618/3513092078_3c23e29d34_z.jpg%3Fzz%3D1&imgrefurl=http://www.flickr.com/photos/goldentime/3513092078/&usg=__cKEapzgJFewuxji4tYh9nD63Fwc=&h=640&w=425&sz=85&hl=en&start=0&zoom=1&tbnid=wBuHrZmG5CI7EM:&tbnh=152&tbnw=101&prev=/images%3Fq%3Dthe%2Bqueens%2Bhead%2Brock%2Btaiwan%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=hc&vpx=340&vpy=77&dur=218&hovh=276&hovw=183&tx=114&ty=111&ei=wKGBTIeNOsP78AaO9Jxz&oei=wKGBTIeNOsP78AaO9Jxz&esq=1&page=1&ndsp=7&ved=1t:429,r:1,s:0 Gateway of the Sun: http://miscellaneous-pics.blogspot.com/2008/11/gateway-of-sun-tiauanaco-sun-gate.html, http://www.google.com/imgres?imgurl=http://upload.wikimedia.org/wikipedia/commons/7/72/TiahuanacoGateEGSquier1877.jpg&imgrefurl=http://commons.wikimedia.org/wiki/File:TiahuanacoGateEGSquier1877.jpg&usg=__3DaiveMixJE8bfbeBW6vb5edpTM=&h=293&w=402&sz=54&hl=en&start=0&zoom=0&tbnid=VEvLhUHJLlLxRM:&tbnh=90&tbnw=124&prev=/images%3Fq%3Dgateway%2Bof%2Bthe%2Bsun%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=hc&vpx=1335&vpy=317&dur=20&hovh=90&hovw=124&tx=78&ty=37&ei=5kiCTObOOsK88gbRmORe&oei=5kiCTObOOsK88gbRmORe&esq=1&page=1&ndsp=12&ved=1t:429,r:5,s:0 Christ the Redeemer: http://www.sacred-destinations.com/brazil/rio-christ-the-redeemer, http://www.google.com/imgres?imgurl=http://farm1.static.flickr.com/163/384823721_f585b53254_o.jpg&imgrefurl=http://flickr.com/photos/63348854%40N00/384823721&usg=__Aaa3RTpcgxO8gbEh75QvK7DbKQw=&h=2007&w=2651&sz=1587&hl=en&start=0&zoom=0&tbnid=BhATo7TX7i9OWM:&tbnh=114&tbnw=150&prev=/images%3Fq%3Dchrist%2Bthe%2Bredeemer%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=hc&vpx=1364&vpy=347&dur=270&hovh=114&hovw=150&tx=82&ty=104&ei=mFWCTK3dO8KB8ga9ma2sAg&oei=e1WCTPFbhPnwBtH-6FM&esq=4&page=1&ndsp=25&ved=1t:429,r:16,s:0 Colca Canyon: http://www.google.com/imgres?imgurl=http://farm4.static.flickr.com/3466/3747594584_41e7afbbb2.jpg&imgrefurl=http://flickr.com/photos/nastasi/3747594584/&usg=__gjZONXoqvaW45Y903xsf-PYp6ds=&h=500&w=337&sz=163&hl=en&start=0&zoom=0&tbnid=hA4NrIsORvxFQM:&tbnh=130&tbnw=88&prev=/images%3Fq%3Dcolca%2Bcanyon%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=hc&vpx=132&vpy=441&dur=890&hovh=130&hovw=88&tx=115&ty=108&ei=p2GCTMjfCYH58Ablw8hQ&oei=p2GCTMjfCYH58Ablw8hQ&esq=1&page=1&ndsp=24&ved=1t:429,r:16,s:0, http://www.colcatrek.com/eng/home.php Mount Huascaran: http://sevennaturalwonders.org/south-america/huascaran-national-park http://www.parkswatch.org/parkprofile.php?l=eng&country=per&park=hunp&page=phy http://en.wikipedia.org/wiki/Huascar%C3%A1n http://www.google.com/imgres?imgurl=http://upload.wikimedia.org/wikipedia/commons/d/d3/Taulliraju.JPG&imgrefurl=http://commons.wikimedia.org/wiki/File:Taulliraju.JPG&usg=__rVjBEhBKGQUfybfyAF1uUvj8QOQ=&h=600&w=800&sz=357&hl=en&start=0&zoom=0&tbnid=ag3KISZ5fHD7NM:&tbnh=107&tbnw=143&prev=/images%3Fq%3Dhuascaran%2Bnational%2Bpark%26um%3D1%26hl%3Den%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=rc&dur=340&ei=VqeDTPP2O8O88gapodGEBA&oei=VqeDTPP2O8O88gapodGEBA&esq=1&page=1&ndsp=21&ved=1t:429,r:16,s:0&tx=61&ty=53 Sydney Opera House: http://wiki.answers.com/Q/Is_concrete_a_type_of_rock http://www.ritchiewiki.com/wiki/index.php/Sydney_Opera_House#Equipment_Used Devils Marbles: http://adelaideinstitute.org/Dissenters1/Toben/devil.htm http://www.google.com/imgres?imgurl=http://upload.wikimedia.org/wikipedia/commons/a/a7/Devils_Marbles.jpg&imgrefurl=http://commons.wikimedia.org/wiki/File:Devils_Marbles.jpg&usg=__Vj8Y9AMTW8nI9szWWkYV1p7ST44=&h=533&w=800&sz=75&hl=en&start=0&zoom=0&tbnid=Ab2ibksXkS94-M:&tbnh=95&tbnw=143&prev=/images%3Fq%3Ddevils%2Bmarbles%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D687%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=rc&dur=440&ei=IDaETLqCAcH48AabydBs&oei=IDaETLqCAcH48AabydBs&esq=1&page=1&ndsp=21&ved=1t:429,r:7,s:0&tx=90&ty=58 Fasiledes Castle: http://www.google.com/search?sourceid=ie7&q=fasiledess+castle+is+made+of&rls=com.microsoft:en-US:IE-SearchBox&ie=UTF-8&oe=UTF-8&rlz=1I7ACAW_enUS361US361#hl=en&rls=com.microsoft%3Aen-US%3AIE-SearchBox&rlz=1I7ACAW_enUS361US361&q=is+fasiledes+castle+made+of+sandstone&aq=o&aqi=g10&aql=&oq=&gs_rfai=&pbx=1&fp=fbb82a6afec8c3ff http://www.scribd.com/doc/36113263/Architecture-of-Africahttp://www.earth.ox.ac.uk/~oesis/field/index.html Maltese Rock: http://www.photographersdirect.com/stockimages/m/maltese_cross.asp Three Rondavels: http://greenearthfacts.com/places/10-most-amazing-rock-formations-around-the-world/http://www.flickr.com/photos/kk_wpg/3200472855/ Mount Kirkpatrick: http://en.wikipedia.org/wiki/Mount_Kirkpatrick_Formation Great Wall of China: http://answers.yahoo.com/question/index?qid=20070625174232AA15FK Castle Rock: http://www.exo.net/~pauld/antarctica/castlerock.html
39. Mount Huascaran: http://sevennaturalwonders.org/south-america/huascaran-national-park http://www.parkswatch.org/parkprofile.php?l=eng&country=per&park=hunp&page=phy http://en.wikipedia.org/wiki/Huascar%C3%A1n http://www.google.com/imgres?imgurl=http://upload.wikimedia.org/wikipedia/commons/d/d3/Taulliraju.JPG&imgrefurl=http://commons.wikimedia.org/wiki/File:Taulliraju.JPG&usg=__rVjBEhBKGQUfybfyAF1uUvj8QOQ=&h=600&w=800&sz=357&hl=en&start=0&zoom=0&tbnid=ag3KISZ5fHD7NM:&tbnh=107&tbnw=143&prev=/images%3Fq%3Dhuascaran%2Bnational%2Bpark%26um%3D1%26hl%3Den%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D650%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=rc&dur=340&ei=VqeDTPP2O8O88gapodGEBA&oei=VqeDTPP2O8O88gapodGEBA&esq=1&page=1&ndsp=21&ved=1t:429,r:16,s:0&tx=61&ty=53 Sydney Opera House: http://wiki.answers.com/Q/Is_concrete_a_type_of_rock http://www.ritchiewiki.com/wiki/index.php/Sydney_Opera_House#Equipment_Used Devils Marbles: http://adelaideinstitute.org/Dissenters1/Toben/devil.htm http://www.google.com/imgres?imgurl=http://upload.wikimedia.org/wikipedia/commons/a/a7/Devils_Marbles.jpg&imgrefurl=http://commons.wikimedia.org/wiki/File:Devils_Marbles.jpg&usg=__Vj8Y9AMTW8nI9szWWkYV1p7ST44=&h=533&w=800&sz=75&hl=en&start=0&zoom=0&tbnid=Ab2ibksXkS94-M:&tbnh=95&tbnw=143&prev=/images%3Fq%3Ddevils%2Bmarbles%26um%3D1%26hl%3Den%26sa%3DG%26rls%3Dcom.microsoft:en-US:IE-SearchBox%26rlz%3D1I7ACAW_enUS361US361%26biw%3D1575%26bih%3D687%26as_st%3Dy%26tbs%3Disch:1,iur:f&um=1&itbs=1&iact=rc&dur=440&ei=IDaETLqCAcH48AabydBs&oei=IDaETLqCAcH48AabydBs&esq=1&page=1&ndsp=21&ved=1t:429,r:7,s:0&tx=90&ty=58 Fasiledes Castle: http://www.google.com/search?sourceid=ie7&q=fasiledess+castle+is+made+of&rls=com.microsoft:en-US:IE-SearchBox&ie=UTF-8&oe=UTF-8&rlz=1I7ACAW_enUS361US361#hl=en&rls=com.microsoft%3Aen-US%3AIE-SearchBox&rlz=1I7ACAW_enUS361US361&q=is+fasiledes+castle+made+of+sandstone&aq=o&aqi=g10&aql=&oq=&gs_rfai=&pbx=1&fp=fbb82a6afec8c3ff http://www.scribd.com/doc/36113263/Architecture-of-Africahttp://www.earth.ox.ac.uk/~oesis/field/index.html Maltese Rock: http://www.photographersdirect.com/stockimages/m/maltese_cross.asp Three Rondavels: http://greenearthfacts.com/places/10-most-amazing-rock-formations-around-the-world/http://www.flickr.com/photos/kk_wpg/3200472855/ Mount Kirkpatrick: http://en.wikipedia.org/wiki/Mount_Kirkpatrick_Formation Great Wall of China: http://answers.yahoo.com/question/index?qid=20070625174232AA15FK Castle Rock: http://www.exo.net/~pauld/antarctica/castlerock.html