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Water is generally slower than most solids to absorb or give up heat enery resulting a slower change of temperature. Thus large bodies of water tend moderate temperature of land masses. It follows that this effect will be less significant the further the land mass is from large bodies of water as the moderating effects will be reduced by heat transfer by areas of land closer to water and thus reduce the moderating effects of transfer of the medium through which it is carried, the air that travels from water to land.
The force of gravity affects nearby light, causing a change in temperature.
Bodies of water have a moderating effect on land temperatures because in a moderate climate, such as Vancouver, Canada, the air from the oceans in the summertime is cooler and blows onto the adjacent land, whereas in the wintertime, the air masses from the warmer waters blows onto the nearby land and causes the land to warm up. Although, for a continental climate, such as Winnipeg, Canada, the exact oppostie happens. The cold air from the oceans blows onto the nearby land and thus makes everything cooler, and in the summer, the warmer air masses blows onto the land and makes everything warmer. This is also considered an extreme climate. Therefore, bodies of water regulate temperatures of the nearby land, and in cases of El Nino, have affects temperatures on a global scale.
How clearing a forest would affect a nearby river
Heat is transferred from one object to the other.
you
altitude, latitude and, nearby bodies of water
By temperature changing rarely
Two Factors that would affect weather patterns of a region is altitude and nearby bodies of water.
Penice
Large bodies of water can moderate the climate of nearby land by absorbing and releasing heat more slowly than land. This can lead to cooler summers and milder winters compared to areas further inland. Water bodies can also influence precipitation patterns by contributing moisture to the air, leading to increased rainfall in coastal regions.
No; the directions up and down are defined by the gravitational attraction of nearby bodies only.No; the directions up and down are defined by the gravitational attraction of nearby bodies only.No; the directions up and down are defined by the gravitational attraction of nearby bodies only.No; the directions up and down are defined by the gravitational attraction of nearby bodies only.
The temperature 30°C (86°F) is warm but tolerable. It is a common daytime temperature for continental regions in the tropics, where any nearby bodies of water are relatively warm as well.
Water is generally slower than most solids to absorb or give up heat enery resulting a slower change of temperature. Thus large bodies of water tend moderate temperature of land masses. It follows that this effect will be less significant the further the land mass is from large bodies of water as the moderating effects will be reduced by heat transfer by areas of land closer to water and thus reduce the moderating effects of transfer of the medium through which it is carried, the air that travels from water to land.
i really dont even know sorry
You could, if there were one nearby, where "nearby" is an extremely generous distance.
water has a high specific,which means it absorbs a lot of energy in order to increse in temperature (thus realeases a lot of energy when it clecreases in temperature).This means water C