The sun's unequal heating of the ocean causes variations in water temperature, which in turn influences ocean currents and weather patterns. Warmer water tends to rise and create low-pressure areas, while cooler water sinks, leading to the formation of currents. This process plays a critical role in regulating climate by distributing heat around the planet and can also contribute to phenomena like El Niño and monsoons. Overall, it significantly affects marine ecosystems and the global climate system.
Yes, global winds are primarily caused by the unequal heating of the Earth's surface by the Sun. This differential heating creates variations in air pressure, which in turn generates the movement of air masses known as global winds.
Wind and ocean currents are both produced by the Earth's unequal heating. This leads to the conclusion that the Sun is the main component in wind currents and ocean currents, because the Sun is what heats the Earth.
cause mercury doesnt trap the suns heat into the surface. It burns in the day time but freezes at the night time. Venus traps the suns heat in its surface.
no - they're planets. Suns are stars.
No, there are not 50 suns in the universe. Our solar system has one sun, which is a star that provides light and heat to the planets. There are billions of other stars in the universe, but not all of them are like our sun.
Yes, global winds are primarily caused by the unequal heating of the Earth's surface by the Sun. This differential heating creates variations in air pressure, which in turn generates the movement of air masses known as global winds.
Wind and ocean currents are both produced by the Earth's unequal heating. This leads to the conclusion that the Sun is the main component in wind currents and ocean currents, because the Sun is what heats the Earth.
not sure
not sure
The ocean absorbs heat through the suns rays
it cause erosion
the suns move aroung etternally
no. the earths orbit cause the seasons
because It is further away from the suns heat
Yes, the sun's energy causes evaporation by heating up water on the Earth's surface, turning it into water vapor which rises into the atmosphere. This process is crucial for the water cycle and the distribution of water on Earth.
The suns radiation hitting our atmosphere
Because... (a) not every energy 'ray' from the sun has the same strength, (b) the thickness of the atmosphere varies - depending on where you are on Earth, and (c) water and land absorb heat at different rates.