The peak of Everest used to be seafloor. It doesn’t mean that back then the sea is as high as Everest, it’s that Himalaya is a relatively young mountain that are created by Indian plates pushing north, thus pushing what was once seafloor into mountain peak. Sometimes the otherway happens. Like how it’s theorized that Doggerland, which was a seafloor now, used to thrive with humans, the end of ice age however floods the area and pushing humans to higher grounds, British isles and mainland europe. Before you think of normal floods though, do remember these happens within 300 years, so it’s more like the humans realize that the shore gets closer and closer every weeks/month until separating the isles from mainland more than instant flooding.

The peak of Everest used to be seafloor. It doesn’t mean that back then the sea is as high as Everest, it’s that Himalaya is a relatively young mountain that are created by Indian plates pushing north, thus pushing what was once seafloor into mountain peak. Sometimes the otherway happens. Like how it’s theorized that Doggerland, which was a seafloor now, used to thrive with humans, the end of ice age however floods the area and pushing humans to higher grounds, British isles and mainland europe. Before you think of normal floods though, do remember these happens within 300 years, so it’s more like the humans realize that the shore gets closer and closer every weeks/month until separating the isles from mainland more than instant flooding.

It is not so much a question of where the water goes but where the ground goes.

You can climb up Mount Everest and find marine fossils. This means that at some point the highest ground we have on the planet was once under water.

This does not mean some biblical flood, but rather that the ground moves. Continental drift and plate tectonics move landmasses around and like in the case of the Himalayas ocean floor may be piled up into tall mountains.

There are many places that were once dry land that are now under water and others that were covered in water are now dry land.

For example when Dinosaurs still roamed the land the center of what is now the US was covered in a great shallow ocean that connected the gulf of Mexico all the way up to the arctic ocean.

As recently as a few thousand years ago what is now Britain was connected to the rest of Europe by a landmass which existed where now there is the north sea.

Between the changes in climate and Continents drifting about how much of the world was covered in water changed over the ages

There are some theories that in the very distant past like 3 billions of years ago all the world or almost all of it was covered in water.

It is not so much a question of where the water goes but where the ground goes.

You can climb up Mount Everest and find marine fossils. This means that at some point the highest ground we have on the planet was once under water.

This does not mean some biblical flood, but rather that the ground moves. Continental drift and plate tectonics move landmasses around and like in the case of the Himalayas ocean floor may be piled up into tall mountains.

There are many places that were once dry land that are now under water and others that were covered in water are now dry land.

For example when Dinosaurs still roamed the land the center of what is now the US was covered in a great shallow ocean that connected the gulf of Mexico all the way up to the arctic ocean.

As recently as a few thousand years ago what is now Britain was connected to the rest of Europe by a landmass which existed where now there is the north sea.

Between the changes in climate and Continents drifting about how much of the world was covered in water changed over the ages

There are some theories that in the very distant past like 3 billions of years ago all the world or almost all of it was covered in water.

Ice age took water that used to be in oceans and put it on land. When ice melted, it made big lakes but then the water made its way back to the oceans by evaporating and rivers and such. Some water is still in ice in things like ice caps and glaciers but that is likely to at least partly melt due to human activity, meaning oceans will get higher and flood some of the land again. Some of it is also land that used to be squished under ice rising a bit now that the ice is off. It was a lot of ice.

Looking back further, the earth’s plates move around and you get stuff going up or down slowly over time. There are sea fossils on top of Everest from when it was underwater.

Ice age took water that used to be in oceans and put it on land. When ice melted, it made big lakes but then the water made its way back to the oceans by evaporating and rivers and such. Some water is still in ice in things like ice caps and glaciers but that is likely to at least partly melt due to human activity, meaning oceans will get higher and flood some of the land again. Some of it is also land that used to be squished under ice rising a bit now that the ice is off. It was a lot of ice.

Looking back further, the earth’s plates move around and you get stuff going up or down slowly over time. There are sea fossils on top of Everest from when it was underwater.

This depends a lot on where you are, but in certain parts of the world the ice sheet during last ice age was several kilometers thick. All that mass of ice pushed ground down, over a kilometer in some places. After the ice age, the ground begun to rebounce, and it’s still raising to this day.

This depends a lot on where you are, but in certain parts of the world the ice sheet during last ice age was several kilometers thick. All that mass of ice pushed ground down, over a kilometer in some places. After the ice age, the ground begun to rebounce, and it’s still raising to this day.

If there were no mountains, valleys, hills or changes in elevation at all. If the entire crust was a perfect sphere, there would be enough water to cover it 1.68 miles deep. Even if you only include the oceans, it’s still 1.62 to 1.63 miles deep. So we’re very lucky that tectonic activity changes the landscape. Fissures can create volcanos, plates crashing into each other push up mountains, both will push water out of the way as they rise.

It also depends on how long ago we’re talking. If it’s Pangaea, that’s only like, a couple hundred million years ago. The atmosphere and climate aren’t going to be insanely far off from what they are right now, but a couple billion years ago, we’re talking proto-Earth where weather would have been unrecognizable. It started off super hot so there would have been an insane amount of water evaporated in the atmosphere. As it cooled down, that rain likely lasted for centuries. There would have been phenomenal flooding. Once the rains finally ceased, a more stable equilibrium could be found where evaporation rate more closely matches rain

If there were no mountains, valleys, hills or changes in elevation at all. If the entire crust was a perfect sphere, there would be enough water to cover it 1.68 miles deep. Even if you only include the oceans, it’s still 1.62 to 1.63 miles deep. So we’re very lucky that tectonic activity changes the landscape. Fissures can create volcanos, plates crashing into each other push up mountains, both will push water out of the way as they rise.

It also depends on how long ago we’re talking. If it’s Pangaea, that’s only like, a couple hundred million years ago. The atmosphere and climate aren’t going to be insanely far off from what they are right now, but a couple billion years ago, we’re talking proto-Earth where weather would have been unrecognizable. It started off super hot so there would have been an insane amount of water evaporated in the atmosphere. As it cooled down, that rain likely lasted for centuries. There would have been phenomenal flooding. Once the rains finally ceased, a more stable equilibrium could be found where evaporation rate more closely matches rain