2,743
edits
Scientific Miracles in the Quran: Difference between revisions
no edit summary
| [checked revision] | [checked revision] |
Lightyears (talk | contribs) No edit summary |
Lightyears (talk | contribs) No edit summary |
||
| Line 195: | Line 195: | ||
Critics have pointed out that while there is at times an underground accumulation of crust-matter below mountains, scientists have pointed out that this phenomenon does not in any way stabilize the Earth's surface. Indeed, modern science has discovered that mountains (and their underground underbellies) are in fact a direct product of the instability of the Earth's surface, which form when tectonic plates collide and generate destructive earthquakes. | Critics have pointed out that while there is at times an underground accumulation of crust-matter below mountains, scientists have pointed out that this phenomenon does not in any way stabilize the Earth's surface. Indeed, modern science has discovered that mountains (and their underground underbellies) are in fact a direct product of the instability of the Earth's surface, which form when tectonic plates collide and generate destructive earthquakes. | ||
Secondly, critics point out that unlike pegs which are objects placed into something else, mountains caused by plate tectonics are of continuous material as the surrounding crust, albeit of a different or contorted shape due to geological processes. Moreover, they do not peg anything to something else since the thickened crust beneath mountain ranges merely protrudes deeper than the surrounding crust into the Earth's mantle, which is molten and not a solid object. | Secondly, critics point out that unlike pegs which are objects placed into something else, mountains caused by plate tectonics are of continuous material as the surrounding crust, albeit of a different or contorted shape due to geological processes. This shape is also nothing like a peg, since the thickening which occurs when continental plates collide extends all along the length of the resulting mountain range. Moreover, they do not peg anything to something else since the thickened crust beneath mountain ranges merely protrudes deeper than the surrounding crust into the Earth's mantle, which is molten and not a solid object. | ||
Thirdly, continental crust thickening (sometimes called 'crustal roots' or 'mountain roots', terms which refer to the crust beneath entire mountain ranges rather than individual mountains) does not occur during the formation of other types of mountain, such as karsk mountains, plateau mountains, fault-block mountains, and lava dome mountains. | Thirdly, continental crust thickening (sometimes called 'crustal roots' or 'mountain roots', terms which refer to the crust beneath entire mountain ranges rather than individual mountains) does not occur during the formation of other types of mountain, such as karsk mountains, plateau mountains, fault-block mountains, and lava dome mountains. | ||