There's no statement on that list that describes that phenomenon.
Oh all right. The following one does:
The third one, or choice " c ".
The coastal regions are mostly high temperatures. Hope that helped :)
The city located further inland can be significantly drier, the city along the coast can have more stable temperatures. Coastal regions tend to be more stable.
Atlantic coastal plainThe Atlantic coastal plain is a physiographic region of low relief along the East Coast of the United States. It extends 2,200 miles from the New York Bight southward to a Georgia/Florida section of the Eastern Continental Divide, which demarcates the plain from the ACF River Basin in the Gulf Coastal Plain to the west
Extended from the low-tide mark to the outer edge of the continental shelf, the relatively shallow border that surrounds the continents.
because the oceans hold lots of heat
Mid-latitude continental interiors have greater extremes in temperature than coastal areas because large areas heat up and cool off more quickly than oceans. Therefore, in the winter, the interiors of continents will be much colder than along the coast. Similarly, in the summer, the interiors heat up much more than the coastal areas. The colder winter temperatures and warmer summer temperatures of the interior result in a greater range of temperature. Oceans provide both cold and warm currents. Oceans moderate air temperatures rather than causing extremes. The Intertropical Convergence Zone does not move far enough north or south to reach the mid-latitudes. Coastal storms can and do cause much damage, but the extremes of temperature are still greater in the interior.
Mid-latitude continental interiors have greater extremes in temperature than coastal areas because large areas heat up and cool off more quickly than oceans. Therefore, in the winter, the interiors of continents will be much colder than along the coast. Similarly, in the summer, the interiors heat up much more than the coastal areas. The colder winter temperatures and warmer summer temperatures of the interior result in a greater range of temperature. Oceans provide both cold and warm currents. Oceans moderate air temperatures rather than causing extremes. The Intertropical Convergence Zone does not move far enough north or south to reach the mid-latitudes. Coastal storms can and do cause much damage, but the extremes of temperature are still greater in the interior.
Mid-latitude continental interiors have greater extremes in temperature than coastal areas because large areas heat up and cool off more quickly than oceans. Therefore, in the winter, the interiors of continents will be much colder than along the coast. Similarly, in the summer, the interiors heat up much more than the coastal areas. The colder winter temperatures and warmer summer temperatures of the interior result in a greater range of temperature. Oceans provide both cold and warm currents. Oceans moderate air temperatures rather than causing extremes. The Intertropical Convergence Zone does not move far enough north or south to reach the mid-latitudes. Coastal storms can and do cause much damage, but the extremes of temperature are still greater in the interior.
Mid-latitude continental interiors have greater extremes in temperature than coastal areas because large areas heat up and cool off more quickly than oceans. Therefore, in the winter, the interiors of continents will be much colder than along the coast. Similarly, in the summer, the interiors heat up much more than the coastal areas. The colder winter temperatures and warmer summer temperatures of the interior result in a greater range of temperature. Oceans provide both cold and warm currents. Oceans moderate air temperatures rather than causing extremes. The Intertropical Convergence Zone does not move far enough north or south to reach the mid-latitudes. Coastal storms can and do cause much damage, but the extremes of temperature are still greater in the interior.
the difference that have is that one side is more hot and the other coold , because the wind is strong and that what cause the climograph. thanks ..
cold winds pull water droplets to the upper layers of the atmosphere, they freeze and fall when another wind gust comes this cycle starts over. when the ice balls get to heavy they fall to Earth
It has to be the Summer. In Winter, the ocean currents are WARM compared to coastal temperatures.
because of the montians
The coastal regions are mostly high temperatures. Hope that helped :)
The continental shelf
coastal
With coastal climate, the close proximity to the water evens out temperature swings and provides moisture. Continental climate can be dryer and see bigger differences in temperature.