PANGAEA GOT SEPERATED BY TO PLATES UNDER THE OCEAN.IT G0T SEPERATED BECAUSE THE TWO PLATES COLLIDED.THAT'S WHY ALL THE CONTINETS ARE SEPERATED. PANGAEA GOT SEPERATED BY TO PLATES UNDER THE OCEAN.IT G0T SEPERATED BECAUSE THE TWO PLATES COLLIDED.THAT'S WHY ALL THE CONTINETS ARE SEPERATED.
No. They are younger. The earliest stages of the formation of the Alps began in the late Cretaceous, more than 100 million years after Pangaea broke up.
The supercontinent known as Pangaea completed its formation during the Permian period, bringing together many of Earth's landmasses into a single large landmass.
Formation: Pangaea formed around 335 million years ago when several continents collided, creating a single supercontinent. Breakup: Around 175 million years ago, Pangaea started breaking apart due to tectonic plate movements. Laurasia and Gondwana: The breakup of Pangaea led to the formation of two supercontinents, Laurasia in the north and Gondwana in the south. Continents drift: Over millions of years, the continents continued to drift to their current positions. Current configuration: The continents are currently arranged as they are today, following the breakup of Pangaea.
During the Mesozoic era, significant tectonic activity included the breakup of the supercontinent Pangaea, which led to the formation of the Atlantic Ocean through the process of seafloor spreading. This era also experienced the opening of the Tethys Sea and the formation of the Western Interior Seaway in North America.
Pangaea was a supercontinent that existed around 335 million years ago. Volcanic rocks in Pangaea would have been formed by volcanic activity at the time, likely exhibiting characteristics such as basaltic composition, vesicular texture, and presence of minerals like olivine and pyroxene. These rocks would have contributed to the geology and formation of Pangaea.
The effect of a future Pangaea on the formation of coal will be that of a marked increase as continents collide against each other.
The formation of a future Pangaea will affect the availability of water for society by closing off the access to certain bodies of water.
The formation of the Earth is the earliest geologic event.
A mega continent before Pangaea was called Rodinia. It was formed around 1.3 billion years ago and existed before breaking apart and eventually leading to the formation of Pangaea.
During the formation of Pangaea, the supercontinent, the continent that was roughly in the center was Africa. The modern-day landmasses of South America, North America, Europe, and Asia surrounded Africa as Pangaea formed.
The supercontinent that formed at the end of the Paleozoic era is known as Pangaea. Pangaea began to break apart during the Mesozoic era, ultimately leading to the formation of the continents as we know them today.
Pangaea began to break up during the Triassic period, around 200 million years ago. This breakup eventually led to the formation of the continents we recognize today.
Scientists hypothesize that there are two main stages to the formation of Pangaea: the assembly stage, during which the continents were moving closer together, and the breakup stage, when Pangaea began to split into separate continents.
No, Pangaea no longer exists today. It broke apart over 200 million years ago, leading to the formation of the continents as we know them now.
Pangaea, the supercontinent, formed during the late Paleozoic era, specifically during the Permian period, around 335 million years ago. The process of Pangaea's formation is known as the "assembly" phase of the supercontinent cycle.
Pangaea completed its formation during the late Paleozoic era, approximately 270 million years ago. This supercontinent was a result of the collision of multiple smaller landmasses, bringing together most of Earth's continents into a single vast landmass.
In the Paleozoic era. mesozoic era <== nova net by b.c