the same as Alpha. Both locations are the same distance from the equator. The winds push the ocean water, and it turns to follow the coast in both locations, so the same amount of energy is transferred to the air.

warmer than Alpha. Moving air with a lot of energy turns and follows the coast toward Delta; moving air with only a little energy turns and follows the coast toward Alpha.

warmer than Alpha. The winds push ocean water that turns and follows the coasts. Energy is transferred from the ocean to the air at Delta and energy is transferred from the air to the ocean at Alpha.

warmer than Alpha. The winds push ocean water that turns and follows the coasts. A lot of energy is transferred from the ocean to the air at Delta, and only a little energy is transferred from the ocean to the air at Alpha.

the same as Khatyrka. Even though the ocean water at each location is a different temperature, the same amount of energy is transferred to the air at both locations.

the same as Khatyrka. They are both near moving ocean water, so the same amount of energy is transferred to the air at both locations.

warmer than Khatyrka. At Alesund, energy is transferred from the ocean to the air. At Khatyrka, energy is transferred from the air to the ocean.

warmer than Khatyrka. At Alesund, a lot of energy is transferred from the ocean to the air. At Khatyrka, only a little energy is transferred from the ocean to the air.

the same as Townsville. Both locations are the same distance from the equator. The winds push the ocean water, and it turns to follow the coast past both locations, so the same amount of energy is transferred to the air.

colder than Townsville. Moving air with only a little energy turns and follows the coast toward Mowe Bay. Moving air with a lot of energy turns and follows the coast toward Townsville.

colder than Townsville. The winds push ocean water that turns and follows the coasts. Energy is transferred from the air to the ocean at Mowe Bay and energy is transferred from the ocean to the air at Townsville.

colder than Townsville. The winds push ocean water that turns and follows the coasts. Only a little energy is transferred from the ocean to the air at Mowe Bay; more energy is transferred from the ocean to the air at Townsville.

Kamina, because less energy is transferred from the sun directly to the air.

Kamina, because less energy is transferred from the sun directly to the surface, and then from the surface to the air.

Hopetown, because less energy is transferred from the sun directly to the air. 

Hopetown, because less energy is transferred from the sun directly to the surface, and then from the surface to the air.

the sun

volcanoes

coal and oil

trees

Harbin, because less energy is transferred from the sun directly to the surface, and then from the surface to the air.

Harbin, because less energy is transferred from the sun directly to the air.

Chengdu, because less energy is transferred from the sun directly to the surface, and then from the surface to the air.

Chengdu, because less energy is transferred from the sun directly to the air.

warmer than Oxford. At Madison, a lot of energy is transferred from the ocean to the air. At Oxford, only a little energy is transferred from the ocean to the air.

warmer than Oxford. At Madison, energy is transferred from the ocean to the air. At Oxford, energy is transferred from the air to the ocean.

the same as Oxford. They are both near moving ocean water, so the same amount of energy is transferred to the air at both locations.

the same as Oxford. Even though the ocean water at each location is a different temperature, the same amount of energy is transferred to the air at both locations.