Water cycle is correct!
Evaporation: Water from oceans, lakes, and rivers is heated by the sun and turns into water vapor. Condensation: Water vapor cools and condenses into clouds. Precipitation: Water droplets in clouds combine and fall to the earth's surface as rain, snow, sleet, or hail. Runoff: Excess water flows over the earth's surface into bodies of water, replenishing the water cycle.
The geosphere and atmosphere work together through processes like erosion, weathering, and volcanic activity. The geosphere influences atmospheric conditions through the release of gases and particles, while the atmosphere affects the geosphere through weather patterns and climate. This interaction plays a crucial role in shaping Earth's surface and sustaining life.
The process starts with evaporation, where water changes from liquid to vapor. The vapor then rises into the atmosphere, condenses into clouds, and falls back to the Earth's surface as precipitation, such as rain, snow, or hail. Finally, water moves through surface runoff, infiltration, and groundwater flow to replenish rivers, lakes, and oceans.
The atmosphere balances the unequal heating of Earth's surface by moving air through convection currents. These currents transfer heat from warmer regions to cooler regions, helping to regulate temperature gradients and create more stable climate conditions.
An object that survives Earth's atmosphere and strikes the surface is called a meteorite. It is a fragment of a meteoroid that has passed through the atmosphere and landed on Earth.
Water evaporates from bodies of water or land into the atmosphere, forms clouds through condensation, falls back to the earth's surface as precipitation (rain, snow, sleet), and then flows into rivers, lakes, and oceans through runoff.
The water in large water bodies evaporate easily through sunlight. The condition of atmosphere also affect the path of watercycle. In cold weather conditions, less amount of water gets evaporated and so on.
Evaporation: Water from oceans, lakes, and rivers is heated by the sun and turns into water vapor. Condensation: Water vapor cools and condenses into clouds. Precipitation: Water droplets in clouds combine and fall to the earth's surface as rain, snow, sleet, or hail. Runoff: Excess water flows over the earth's surface into bodies of water, replenishing the water cycle.
The geosphere and atmosphere work together through processes like erosion, weathering, and volcanic activity. The geosphere influences atmospheric conditions through the release of gases and particles, while the atmosphere affects the geosphere through weather patterns and climate. This interaction plays a crucial role in shaping Earth's surface and sustaining life.
The process starts with evaporation, where water changes from liquid to vapor. The vapor then rises into the atmosphere, condenses into clouds, and falls back to the Earth's surface as precipitation, such as rain, snow, or hail. Finally, water moves through surface runoff, infiltration, and groundwater flow to replenish rivers, lakes, and oceans.
The atmosphere balances the unequal heating of Earth's surface by moving air through convection currents. These currents transfer heat from warmer regions to cooler regions, helping to regulate temperature gradients and create more stable climate conditions.
An object that survives Earth's atmosphere and strikes the surface is called a meteorite. It is a fragment of a meteoroid that has passed through the atmosphere and landed on Earth.
Gravity.
Water leaves Earth's surface and enters the atmosphere through processes such as evaporation from oceans, lakes, and rivers, as well as transpiration from plants. Additionally, water is released into the atmosphere through sublimation from snow and ice.
Yes, meteors are objects that enter Earth's atmosphere and can make it through depending on their size and composition. As they travel through the atmosphere, they create a bright streak of light known as a meteor or shooting star. Most small meteors burn up completely before reaching the Earth's surface.
Water vapor is not cycled through the atmosphere of the earth. While water does evaporate into the atmosphere and precipitate back to the earth's surface, the water molecules themselves are not cycled through the atmosphere in the same way that gases such as nitrogen and oxygen are.
No, the earth's atmosphere reflects and absorbs x-rays, so they do not make it to the surface.