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How would local winds be affected if water and land absorbed and released heat at same rate?
Local winds are driven by temperature differences in areas fairly close to each other.
If water and land absorbed and released heat at the same rate, there wouldn't be any temperature differences and nothing to power local winds.
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How would local winds be affected if water and land absorbed and released at the same rate?
Local winds are driven by temperature differences in areas fairly close to each other. If water and land absorbed and released heat at the same rate, there wouldn't be any temperature differences and nothing to power local winds. See the related link for further information.
How local winds would be affected if water and land absorbed and released heat at the same rate?
Local winds are driven by temperature differences in areas fairly close to each other. If water and land absorbed and released heat at the same rate, there wouldn't be any temperature differences and nothing to power local winds. See the related link for further information.
How would local winds be affected if water and land absorbed heat at the same rate?
idont know
How would local winds be affected if water and land absorbed and released heat at the same rate?
Local winds are driven by temperature differences in areas fairly close to each other. If water and land absorbed and released heat at the same rate, there wouldn't be any temperature differences and nothing to power local winds. See the related link for further information.
How would the local wind be affected if water and land absorbed and release heat at the same rate?
How is land breeze similar to sea brezze
How would local wind be affected if water and land absorbed and released heat at the same rate?
If water and land absorbed and released heat at the same rate, there would be less temperature contrast between the two surfaces. This would result in weaker local wind patterns since wind is primarily driven by temperature differences. The intensity of sea breezes and land breezes, for example, would be reduced.
How would local winds be affected if water and lands absorbrd and released heat at the same rate?
If water and land absorbed and released heat at the same rate, local winds would still form due to temperature differences. However, the intensity and direction of the winds may be less pronounced compared to areas where there are significant differences in heating and cooling rates between water and land. Overall, the local wind patterns would likely be more stable and uniform in such a scenario.
In calculating the heat given off by a reaction in a calorimeter you must account for heat absorbed by?
In calculating the heat given off by a reaction in a calorimeter, you must account for heat absorbed by the surroundings, including the calorimeter itself, any water or solution in the calorimeter, and the air around the calorimeter that may be affected by the reaction. This ensures an accurate measurement of the heat released or absorbed by the reaction itself.
When water is vapourisied energy is absorbed or released?
Energy is absorbed when water is vaporized. This is because the process of vaporization requires breaking the hydrogen bonds between water molecules, which requires energy input to overcome the intermolecular forces holding the liquid water together.
How does radon gets in to the water?
Radon is released from rocks and then absorbed/dissolved in waters.
How would local winds be effected if water and land absorbed and released heat at the same rate?
If water and land absorbed and released heat at the same rate, local winds would likely be less influenced by temperature differences between the two surfaces. This could lead to more stable wind patterns with weaker or less frequent sea breezes and land breezes. Additionally, the direction and strength of local winds may be more affected by other factors such as topography or pressure systems.
When water is freezing is thermal energy released or absorbed?
When water freezes, thermal energy is released from the water as it changes from a liquid to a solid. This released energy is responsible for lowering the temperature of the water to its freezing point and then further to form ice.
