the land of course
The temperature of ocean water can be affected by the depth. The deeper it gets, the colder the temperature. The current also can affect the temperature of ocean water.
this happens because the heat of the human blood temperature will be attracted easier in warm water. But if they smell blood faster won't they swin faster in warmer water? No because cold water is much more of an ocean temperature water so sharks swim faster in cold water.
global winds and differences in temperature and salinity.
Diffusion of heat from land is quicker than water. thus temperature of air on land flactutes faster than in the ocean.
Yes, temperature, salinity, and density are all factors in the formation of ocean currents. These factors affect the movement of water masses, which can create differences in water density and drive the circulation of ocean currents. Changes in temperature and salinity can impact the density of water, influencing the speed and direction of currents.
Liquid water of any sort has a huge heat capacity relative to air; that is, it must absorb a great deal of heat to show a slight increase in temperature. As a result, changes in air temperature are very slow to impact the temperature of large bodies of water such as an ocean, or even a large lake.
It's because THE TEMPERATURE of the water. The higher temperature the faster melts.
temperature gradients, which affect global weather patterns, ocean currents, and atmospheric circulation. These differences can lead to changes in ecosystems, precipitation patterns, and the distribution of species. In turn, these changes can impact agriculture, water resources, and human communities.
In order for temperature to change the involved heat has to have some place to go. The water at the bottom of the ocean is surrounded by ground and other water that are already at the same temperature. Where can extra heat go to? At the surface the air transports heat up and away so ocean heat can leak out (or in) to the water.
Sulfuric acid is generally less resistant to temperature change compared to water because its viscosity changes more with temperature variations. This can lead to faster changes in its physical properties, such as density and conductivity, in response to temperature changes.
the specific heat keeps the ocean temperatures more even
At the same temperature fresh water evaporates faster.