The distribution of mountain ranges across different continents, such as the Appalachian Mountains in North America and the Caledonian Mountains in Europe, supports Wegener's idea of continental drift. These mountain ranges were once connected when the continents were part of a supercontinent, and their alignment provides evidence for the movement of land masses over time. Additionally, the presence of similar geological features and rock formations on separate continents suggests a shared history of mountain building.
The Appalachian Mountains significantly influence Virginia's climate by acting as a barrier to air masses. They help create a varied climate within the state, with cooler temperatures and increased precipitation in the mountainous regions compared to the flatter areas. This topography leads to distinct microclimates, affecting agriculture, biodiversity, and weather patterns across Virginia. Additionally, the mountains can trap moisture, resulting in higher humidity levels in some areas.
Mountains are large high land masses.
Chocolate grows in the masses
Two land masses crunching together will form mountains E.g. Himalayas
they are over land
they are over land
they are over land
Deserts form on one side of mountains or high area masses.
Yes they impede the flow of the sir masses moving over them.
Maritime polar air masses have more effect on the west coast due to the prevailing westerly winds that bring these air masses from the Pacific Ocean. The west coast is more influenced by these moist and cool air masses, leading to more precipitation and cooler temperatures. In contrast, the east coast is shielded by the Appalachian Mountains, which hinder the penetration of maritime polar air masses from the Atlantic Ocean.
Yes, millions of years ago, Australia, North America, and other continents were part of a supercontinent called Pangaea. The Appalachian Mountains in the US and the Great Dividing Range in Australia were once connected as part of a larger mountain chain.