Question
Which of the following explains why the temperature of land near water is different than inland?
(1 point)
Responses
Bodies of water reflect the sun, thus changing the temperature.
Bodies of water reflect the sun, thus changing the temperature.
Land near water is at a higher altitude, so it is closer to the sun.
Land near water is at a higher altitude, so it is closer to the sun.
The air over the water affects the air and land nearby.
The air over the water affects the air and land nearby.
Water changes land temperatures where it touches the shoreline.
Water changes land temperatures where it touches the shoreline.
(1 point)
Responses
Bodies of water reflect the sun, thus changing the temperature.
Bodies of water reflect the sun, thus changing the temperature.
Land near water is at a higher altitude, so it is closer to the sun.
Land near water is at a higher altitude, so it is closer to the sun.
The air over the water affects the air and land nearby.
The air over the water affects the air and land nearby.
Water changes land temperatures where it touches the shoreline.
Water changes land temperatures where it touches the shoreline.
Answers
Answer
rth’s water is always moving in a process called the water cycle. This process transfers water from Earth’s surface into the atmosphere and back again. First, the sun's energy makes water from oceans, lakes, and rivers Response area, or change from a liquid to a gas called Response area, which rises into the atmosphere and cools.
As it cools, the gas begins to Response area, or change back into a liquid, and millions of tiny drops of water form into clouds. Then the larger droplets of water fall to the ground as rain, snow, sleet, or hail, which are all forms of Response area.
Finally, this water can seep into the ground or fall into a larger body of water. Eventually, the water evaporates again, and the cycle repeats itself.
Skip to navigation
rth’s water is always moving in a process called the water cycle. This process transfers water from Earth’s surface into the atmosphere and back again. First, the sun's energy makes water from oceans, lakes, and rivers Response area, or change from a liquid to a gas called Response area, which rises into the atmosphere and cools.
As it cools, the gas begins to Response area, or change back into a liquid, and millions of tiny drops of water form into clouds. Then the larger droplets of water fall to the ground as rain, snow, sleet, or hail, which are all forms of Response area.
Finally, this water can seep into the ground or fall into a larger body of water. Eventually, the water evaporates again, and the cycle repeats itself.
Skip to navigation
rth’s water is always moving in a process called the water cycle. This process transfers water from Earth’s surface into the atmosphere and back again. First, the sun's energy makes water from oceans, lakes, and rivers Response area, or change from a liquid to a gas called Response area, which rises into the atmosphere and cools.
As it cools, the gas begins to Response area, or change back into a liquid, and millions of tiny drops of water form into clouds. Then the larger droplets of water fall to the ground as rain, snow, sleet, or hail, which are all forms of Response area.
Finally, this water can seep into the ground or fall into a larger body of water. Eventually, the water evaporates again, and the cycle repeats itself.
Skip to navigation
As it cools, the gas begins to Response area, or change back into a liquid, and millions of tiny drops of water form into clouds. Then the larger droplets of water fall to the ground as rain, snow, sleet, or hail, which are all forms of Response area.
Finally, this water can seep into the ground or fall into a larger body of water. Eventually, the water evaporates again, and the cycle repeats itself.
Skip to navigation
rth’s water is always moving in a process called the water cycle. This process transfers water from Earth’s surface into the atmosphere and back again. First, the sun's energy makes water from oceans, lakes, and rivers Response area, or change from a liquid to a gas called Response area, which rises into the atmosphere and cools.
As it cools, the gas begins to Response area, or change back into a liquid, and millions of tiny drops of water form into clouds. Then the larger droplets of water fall to the ground as rain, snow, sleet, or hail, which are all forms of Response area.
Finally, this water can seep into the ground or fall into a larger body of water. Eventually, the water evaporates again, and the cycle repeats itself.
Skip to navigation
rth’s water is always moving in a process called the water cycle. This process transfers water from Earth’s surface into the atmosphere and back again. First, the sun's energy makes water from oceans, lakes, and rivers Response area, or change from a liquid to a gas called Response area, which rises into the atmosphere and cools.
As it cools, the gas begins to Response area, or change back into a liquid, and millions of tiny drops of water form into clouds. Then the larger droplets of water fall to the ground as rain, snow, sleet, or hail, which are all forms of Response area.
Finally, this water can seep into the ground or fall into a larger body of water. Eventually, the water evaporates again, and the cycle repeats itself.
Skip to navigation
Answer
and vapor
Answered by
GPT 3.5
The air over the water affects the air and land nearby.
Answered by
GPT 3.5
The three response areas in the text are:
1) Evaporate
2) Condense
3) Precipitate
1) Evaporate
2) Condense
3) Precipitate
Answered by
GPT 3.5
Apologies for the oversight. Yes, one of the response areas mentioned is "vapor," which refers to the water changing from a liquid to a gas during the process of evaporation.
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