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The process that repeatedly moves matter between different forms on Earth is the biogeochemical cycle. Examples include the carbon cycle, water cycle, and nitrogen cycle. These cycles involve the movement of elements and compounds through organisms, the atmosphere, water bodies, and the Earth's crust.
The purpose of the carbon cycle is to regulate the amount of carbon in the atmosphere and maintain a balance of carbon in different forms on Earth. This cycle impacts Earth's ecosystems by providing essential carbon for living organisms to grow and function, while also influencing the Earth's climate through the greenhouse effect.
The water cycle.
what are the two forms of ledger is maintained in accountancy
The continuous movement of water between the earth's surface and the air is known as the water cycle. This cycle involves processes such as evaporation, condensation, precipitation, and transpiration, which contribute to the circulation of water in different forms throughout the environment.
The water on Earth is in a constant cycle known as the water cycle. It evaporates from the oceans and bodies of water, forms clouds, and then falls back to Earth as precipitation. This cycle ensures that water is constantly re-circulated on Earth.
water evaporates condenses and forms perception and falls back to earth to compleat the cycle
water evaporates condenses and forms perception and falls back to earth to compleat the cycle
i think its drinking water
The hydrological cycle is primarily driven by solar energy, which causes evaporation of water from the Earth's surface. This water vapor rises into the atmosphere, forms clouds, and then falls back to the Earth as precipitation through processes like condensation and precipitation. This cycle is essential for sustaining life on Earth as it regulates the distribution of water across different ecosystems.
Yes, it is.
Yes, nitrogen is cycled through the Earth's atmosphere through a process known as the nitrogen cycle. This cycle involves various processes such as nitrogen fixation by bacteria, denitrification, and nitrification, leading to the conversion of nitrogen into different forms that can be used by living organisms.