False
Sedimetary rocks can be formed from changes in igneous rock, and igneous rock can be from changes in sedimentary rock.
Although diamonds could become part of a formation of conglomerate, which is a sedimentary rock, diamond cannot become a rock because diamond is a mineral, whereas a rock has to be composed of two or more minerals.
A sedimentary rock, such as sandstone (quartz mineral grains eroded, transported and set in a fine matrix of mud) or a conglomerate formed in a high energy environment such as a beach of fast-flowing river bed, containing large pebbles set in a fine to medium matrix of sand and mud grains.
Your question cannot be answered as you've written it. It entirely depends on where you live as the numerical channel changes from state to state, country to country. It airs on CBS, you'll have to check your local listings.
Leaves aren't labelled, but their is technology that changes the pigments of the living object so a label can be placed. This technology is being done in some states with fruits in produce stores to eliminate annoying stickers. No, I cannot show you.
You cannot see the ghost hamlet
No, high pressure alone cannot change an igneous rock into sedimentary rock; however, the reverse is true. High pressure can change sedimentary rock into igneous rock.
No rock. Any rock can turn into sedimentary rock, such as granite (igneous rock) and slate (metamorphic rock). Even sedimentary rock can turn into other sedimentary rock.
It cannot be describe as either. Intrusive and extrusive are terms used to describe igneous rocks. Sandstone is sedimentary.
No. The terms mafic and felsic apply to igneous rocks. Limestone is a sedimentary/biochemical rock and so cannot be said to be mafic, felsic, or intermediate.
Fossils are remains or impressions of living organisms and they are found in the sediments in or near where they lived. Living organisms cannot live in a molten magma which cools to become an igneous rock. Metamorphic rocks used to be sedimentary and igneous rocks but they were buried very deep under mountains and any traces of fossils in the sedimentary layers have been removed by the heat and pressure which altered the rock.
No. Since the moon is not geologically active it cannot produce metamorphic rock and since it has no forces of erosion and deposition it cannot produce sedimentary rock. As a result, all the rocks on the moon are igneous
Probably no. Sedimentary rock can be formed from the weathering of igneous and metamorphic rock, from coral and shells, and even from peat and clay. Given enough time, pressure, and warmth just about anything might be compacted into becoming sedimentary rock. If it is soft, it just compacts more and takes longer before becoming stone.
It is definitely a sedimentary rock because you cannot find sea shells where metamorphic rocks are formed, nor can you find them in magma and lava. This is because metamorphic rocks are formed below the earths surface where the plates of the earth squash an existing rock even small to make it metamorphic, and igneous rocks are obviously formed in volcanoes where the heat and pressure would melt the fossil.
Fossils are the hard remnant material of living organisms and hard evidence can be found from the fossils of early phanerozoic. During the early stages of formation of the earth it is supposed to consist of Igneous rocks only. Refer to the major processes of fossilization and it is found that fossils are usually related to areas nearby streams and basins (organisms require water for survival) and hence the only form of rocks can be sedimentary. In the case of metamorphic rock the remnants cannot sustain temp. and pressure changes and deform leaving no traces.
It's due to the high temperature of magma. Igneous rock is formed from the cooling of lava and magma.
Sedimentary rock is composed of the weathered remains of a variety of rocks of all ages. It would therefore only be possible to date specific components of a sample, none of which would equate to the age of the sedimentary rock as a unit. Sedimentary rock is dated by its association in the geologic column with igneous and metamorphic rock which can be dated by radioactive dating techniques.
Sedimentary melting cooling and hardening Metamorphic