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∙ 13y agoCus he a strate thug in science
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∙ 13y agoWegener's idea is known as continental drift. He proposed that the Earth's continents were once connected as a single landmass called Pangea and have since drifted apart over time.
The process by which continents move slowly across the Earth's surface is called plate tectonics. This movement is driven by the continuous shifting of large geological plates that make up the Earth's outer shell. The movement of these plates can result in phenomena like earthquakes, volcanic eruptions, and the formation of mountain ranges.
The process in which continents move slowly across Earth's surface is called plate tectonics. It involves the movement of large plates of the Earth's lithosphere over the semi-fluid asthenosphere beneath them. This movement is driven by heat from within the Earth, causing the plates to separate, collide, or slide past each other.
"Continental drift" is an appropriate title for Wegener's theory because it describes the movement of continents over long periods of time, drifting across the Earth's surface. The theory suggests that continents were once joined as a single landmass, called Pangaea, and have since drifted apart to their current positions.
The idea that continents move slowly across Earth's surface is known as the theory of plate tectonics. It explains how the Earth's lithosphere is divided into several large, rigid plates that float on the semi-fluid asthenosphere beneath them. These plates move due to the heat generated from the Earth's core, leading to processes like seafloor spreading, subduction, and continental drift.
The idea that continents move slowly across Earth's surface is called plate tectonics. This theory explains how the Earth's lithosphere is divided into plates that move and interact with each other, leading to processes such as earthquakes, volcanic activity, and the formation of mountain ranges.
The process by which continents move slowly across the Earth's surface is called plate tectonics. This movement is driven by the continuous shifting of large geological plates that make up the Earth's outer shell. The movement of these plates can result in phenomena like earthquakes, volcanic eruptions, and the formation of mountain ranges.
The idea that continents move slowly across the earth's surface is called the continental drift.
The process in which continents move slowly across Earth's surface is called plate tectonics. It involves the movement of large plates of the Earth's lithosphere over the semi-fluid asthenosphere beneath them. This movement is driven by heat from within the Earth, causing the plates to separate, collide, or slide past each other.
Runoff
It is an iceberg.
"Continental drift" is an appropriate title for Wegener's theory because it describes the movement of continents over long periods of time, drifting across the Earth's surface. The theory suggests that continents were once joined as a single landmass, called Pangaea, and have since drifted apart to their current positions.
they just do, if u were smart you would know this
The theory of plate tectonics.
Wegener's clues for the theory of continental drift included the fit of the continents like a jigsaw puzzle, matching rock formations and mountain ranges across continents, and similarities in plant and animal fossils found on different continents. These clues provided evidence for the movement of the continents over time.
The idea that continents move slowly across Earth's surface is known as the theory of plate tectonics. It explains how the Earth's lithosphere is divided into several large, rigid plates that float on the semi-fluid asthenosphere beneath them. These plates move due to the heat generated from the Earth's core, leading to processes like seafloor spreading, subduction, and continental drift.
The idea that continents move slowly across Earth's surface is called plate tectonics. This theory explains how the Earth's lithosphere is divided into plates that move and interact with each other, leading to processes such as earthquakes, volcanic activity, and the formation of mountain ranges.
None of those. It would take 118.55 Earths to stretch across Jupiter, assuming you're talking about the surface of the Earth stretching across the surface of Jupiter. Take the surface area of both planets and divide them. (Jupiter / Earth) 23.71 billion / 200 million = 118.55 If you meant how many Earths could fit inside Jupiter then the answer would be 1,321.3. Hopefully that helps.