your mom bro. i don't know u kuthi! don't look it up and figure it out yourself like every other human on this planet.
Warm currents are warm whereas cold currents are cold. Warm currents flow from the equatorial regions towards the polar regions whereas cold currents flow from the polar regions to the equatorial regions. By- Avyukt Sharma
Surface currents can have temperatures ranging from freezing temperatures in polar regions to warm temperatures in tropical regions. The specific temperature of a surface current is influenced by factors such as the location of the current, the season, and the interaction with other currents or land masses.
Convection is the transfer of heat within a liquid or gas that involves warm particles moving in currents. It occurs due to the difference in density between the hot and cold regions of the fluid, causing the fluid to circulate and transfer heat energy.
Convection is the transfer of heat within a liquid or gas that involves warm particles moving in currents. This process occurs due to the difference in temperature, with warmer, less dense regions rising and cooler, denser regions sinking.
There is a slight difference in electrical charge between the inside and outside of a nerve cell membrane, known as the resting membrane potential. This potential is typically around -70 millivolts, with the inside of the cell more negative compared to the outside. This difference in charge is essential for the nerve cell to transmit electrical signals.
Warm currents are warm whereas cold currents are cold. Warm currents flow from the equatorial regions towards the polar regions whereas cold currents flow from the polar regions to the equatorial regions. By- Avyukt Sharma
they can warm or cool the air temperature along the coastal regions.
No, a lightning bolt is not caused by the transfer of protons. Lightning occurs when there is a buildup of electrical charge in the atmosphere that is discharged as a visible flash of light. This discharge can happen between different regions of the atmosphere or between the atmosphere and the ground.
The prevailing northerly winds in the Mediterranean Sea and the northward flow of the Nile River's current made it easier for boats to travel southward from Egypt towards regions in the south. This natural flow of wind and water facilitated trade by allowing vessels to travel more efficiently and economically.
The correct answer is differences in temperature *and* differences in salinity between the tropic and polar regions. However in the tropic regions the currents are started by the prevailing winds. And in the polar region the more saline and therefore, denser waters in the current sink to the bottom, which of course is caused by gravity.
Ocean currents transfer heat energy from warmer regions to cooler regions, affecting the climate in those areas. Warm ocean currents can lead to milder climates, while cold currents can bring cooler temperatures. These temperature variations can impact weather patterns, precipitation levels, and overall climate conditions in the surrounding regions.
Cold currents typically originate in high latitude belts near the poles, such as the polar regions or around the 60° latitude lines. These currents flow from these colder regions towards the equator, influencing the temperature and climate of coastal areas along their path.
Ocean currents can influence evaporation rates by bringing warmer or cooler water to a region, affecting the temperature and moisture content of the air above it. Warm ocean currents can increase evaporation rates, leading to more moisture in the atmosphere and potentially higher precipitation levels, while cold currents can have the opposite effect. This can contribute to differences in precipitation patterns across regions.
Yes they are on the opposite poles of the Earth.
cooling and freezing...
Warm currents in the Atlantic Ocean, such as the Gulf Stream, can bring warmer temperatures to regions they flow through, affecting the climate by moderating temperatures and influencing weather patterns. Cold currents, like the Labrador Current, can have the opposite effect, bringing cooler temperatures and potentially impacting marine life by affecting nutrient distribution and species habitats. These currents play a significant role in shaping the climate and ecosystems of the Atlantic region.
Density currents that originate in the polar regions are primarily caused by differences in temperature and salinity of water. Cold and dense polar waters sink and flow towards lower latitudes due to their higher density, creating a current. The interaction between these dense polar waters and surrounding less dense waters helps drive the circulation of the global ocean currents.