yes with the minerals and time
The headquarters of Dell laptop is Round Rock Taxa United stat
NO!!!!!!!!!!!!!!!
Iron ore is a chemical sedimentary rock. Iron ore was formed when the first plants capable of photosynthesis appeared. The water that covered the earth was rich in dissolved iron but contained almost no oxygen. Once the plants started emitting the oxygen, it combined with the dissolved iron and created iron oxides which deposited in great abundance on the sea floor and over billions of years became the rich hematite, magnatite, taconite, limonite and siderite iron ores. Iron ore is typically found in bands with alternating bands of silica, shale and/or chert. It is believed the bands were created due to seasonal changes that affected the organisims. These rocks are some of the oldest found on earth.
What is a geologist? A geologist is a person who studies the Earth and the materials it's made up of (A.K.A. geology). Geologists are also the subject of this speech. There are many kinds of geologists like economic geologists and marine geologists are two examples but I'm just going to deal on the general geologist. A major science they use is Earth science. Earth Science is any of the basic geologic sciences that are connected with the source, arrangement, and physical phenomena of the earth. Using this science geologists can identify countless things. They also identify rocks & minerals. To help identify a mineral's hardness, geologists use Moh's Mineral Scale of Hardness. This scale lists 1-10 weakest to hardest minerals. Moh's Scale is very helpful to geologists. There is also a lot of math involved with geology. One of these is calculus. Calculus is analysis of numbers with special symbols. Calculus helps with making graphs, diagrams, 3-D and 2-D maps, etc. Plus, using calculus geologists can make mathematical models to find oil. Most geologists need to use calculus! SO CALCULUS IS VERY VERY important to Earth Science. Like I said before, geologists are very good at studying rocks. There are three types of rocks: Igneous which is formed by magma and/or lava, Sedimentary which is formed by tiny & big sediments and Metamorphic which is a rock changed by heat & pressure. An example of Igneous is Basalt, a sedimentary is shale and a metamorphic is quartzite. Guess who figured this out. GEOLOGISTS! If it weren't for geologists, we really wouldn't know what rocks were, are, and will be.
Dell headquarters on Round Rock Texas
Igneous Rock.
No. Magma and lava are molten rock. When the cool they form igneous rock.
A sedimentary rock can become an igneous rock through the process of melting and solidification. If sedimentary rocks are subjected to high temperatures and pressures in the Earth's crust or mantle, they can melt and form magma. This magma can then cool and solidify to form igneous rocks.
Volcanic activity in which lava and magma cool and harden into rock and stone.
Lava and magma are not rocks because they are liquids and cant harden because they are to hot to harden and cant cool themselves down long enough to form a hard structure. Magma and lava is rock - it's just been superheated by the Earth's core.
Sedimentary rock can change intometamorphic rock or into igneous rock. Metamorphic rockcan change into igneous or sedimentary rock. Igneous rock forms when magma cools and makes crystals. Magma is a hot liquid made of melted minerals.
It has to harden
They are formed when either a sedimentary rock or a metamorphic rock are exposed to high heat and turn into magma and then cool quickly.
Molten rock is magma. It is called lava once it has cooled and hardened.
Sedimentary rock to change to Igneous rock by applying heat and pressure , which creates Metamorphic rock . Next , Metamorphic rock turns to Magma because it melts . Lastly you have to let the Magma cool and it becomes an Igneous rock . That is how Sedimentary rock changes to Igneous rock .
No. Igneous rock forms from the cooling of magma.
If sedimentary rock is pulled into Earth's interior by tectonic forces, it will undergo heat and pressure, transforming into metamorphic rock. Further movement and heating could melt the metamorphic rock, turning it into magma. The magma can then cool and solidify to form igneous rock, completing the rock cycle.