matter
When a metamorphic rock melts and turns to lava, the primary conservation is the mass of the original rock material, which is transformed into molten material. Additionally, the chemical elements present in the rock are conserved, though they may rearrange into different minerals as the lava cools and solidifies into igneous rock. Energy is also conserved during this process, as the heat required to melt the rock comes from geological sources.
When metamorphic rock melts, it turns into magma, not lava. Magma is molten rock located beneath the Earth's surface, while lava is magma that reaches the surface during a volcanic eruption. The transformation involves the complete melting of minerals in the rock due to increased temperature and pressure. When the magma eventually erupts and cools, it can solidify into igneous rock.
When a metamorphic rock melts, it transforms into magma rather than lava, as lava refers specifically to magma that has erupted onto the Earth's surface. During this melting process, the minerals in the rock may undergo changes, but the overall mass is conserved according to the law of conservation of mass. Once the magma reaches the surface and erupts, it cools and solidifies into igneous rock, completing the rock cycle. Thus, while the form of the material changes, the total mass remains constant throughout these processes.
When metamorphic rock melts into lava, the chemical composition of the minerals is conserved, although their physical state changes from solid to liquid. The elements that make up the rock, such as silica, aluminum, iron, and magnesium, remain present in the molten material. However, the specific arrangement of these elements may change as they re-crystallize upon cooling into igneous rock. The conservation of mass principle also applies, meaning the total mass of material before and after melting remains constant.
Matter
matter
matter
matter
Metamorphic rock that melts turns to magma. This only becomes lava if it is erupted to the surface in a volcano.
When a metamorphic rock melts and turns to lava, the primary conservation is the mass of the original rock material, which is transformed into molten material. Additionally, the chemical elements present in the rock are conserved, though they may rearrange into different minerals as the lava cools and solidifies into igneous rock. Energy is also conserved during this process, as the heat required to melt the rock comes from geological sources.
Yes, this is a simple physical change and matter is always conserved in these. In fact, matter is always conserved except in nuclear reactions where the sum of matter and energy is conserved.
When metamorphic rock melts and turns into lava, the chemical composition of the rock is conserved. This means that the elements present in the original rock remain the same in the lava. However, the physical characteristics, such as texture and crystal structure, may change during the melting process. Overall, the conservation of chemical elements is a fundamental principle in geology known as the law of conservation of matter.
When metamorphic rock melts, it turns into magma, not lava. Magma is molten rock located beneath the Earth's surface, while lava is magma that reaches the surface during a volcanic eruption. The transformation involves the complete melting of minerals in the rock due to increased temperature and pressure. When the magma eventually erupts and cools, it can solidify into igneous rock.
metamorphic rock melts turns into lava,lava cools turns into igneous rock,igneous rock is weathered and eroded into sediment,sediment turns into sedimentary rocksedimentary rock gets heated and squeezed forms metamorphic rockcycle continues.......
Basalt is a common metamorphic rock that can melt and transform into lava when exposed to high temperatures. Basalt is formed from the solidification of lava, so it can melt when subjected to the same conditions.
yes eventually but there are steps:metamorphic rock melts turns into lava,lava cools turns into igneous rock,igneous rock is weathered and eroded into sediment,sediment turns into sedimentary rocksedimentary rock gets heated and squeezed forms metamorphic rockcycle continues.......