earth surface
Ocean currents. This could also apply to wind currents.
one of those
high winds are normally caused by the unequal heating of the earths surface.
Unequal heating and cooling of the Earth's surface creates temperature and pressure differences that lead to the formation of weather systems. These differences in temperature and pressure can result in the development of severe weather events such as tornadoes and hurricanes. Tornadoes form in areas with intense temperature contrasts, while hurricanes form over warm ocean waters where there is a large temperature difference between the air and water.
No, tectonic plates underground and the moon affects the ocean
The difference in the rate of heating and cooling water primarily stems from the specific heat capacity of water, which is relatively high. When heating, water absorbs energy, leading to an increase in temperature, while cooling involves the release of that energy. Additionally, factors like convection currents and evaporation can enhance cooling, making it occur more rapidly than heating under similar conditions. Overall, these thermodynamic properties result in distinct rates for heating and cooling processes.
Heating can be due to a chemical change, for example burning a fuel is in effect a chemical reaction with oxygen. Also some chemical reactions are exothermic, ie they produce heat. Not so many produce cooling, but one is the combination of ice and salt.However heating and cooling happen for other reasons as well, so you can't say they are examples of chemical changes. It is correct to say that some chemical changes result in heating and cooling.
Heating and cooling change the state of the matter. For example, at room temperature water is a liquid but if you heated it becomes steam; a gas. If you freeze it it becomes ice; a solid. Hope it helps xx
Unequal Distribution of invcome results in the rise of POVERTY.
Unequal heating of bodies of water can create temperature variations, leading to differences in density that drive ocean currents and circulation patterns. This can result in the transfer of heat energy across the globe, influencing weather patterns and climate. Additionally, it can impact marine ecosystems by affecting nutrient distribution and species distribution.
The atmosphere gains heat when water vapor evaporates into the air. This process absorbs heat energy from the surrounding environment, cooling it down. The amount of heat gained by the atmosphere is dependent on factors such as temperature, humidity, and wind speed.
Unequal heating refers to uneven distribution of heat within a system or substance. This can lead to temperature variations, which can affect properties such as expansion, flow, or the behavior of materials. Unequal heating can occur due to factors such as the material's composition, structure, or exposure to different heat sources.