the planet is hotter causing evaporation to happen faster/more often causing more rain.
Scientists believe that hurricanes will become more destructive due to global warming because rising ocean temperatures provide more energy for storms, leading to stronger winds and increased rainfall. Warmer air can hold more moisture, resulting in heavier precipitation and higher storm surges. Additionally, sea level rise exacerbates the impact of hurricanes, increasing the risk of flooding in coastal areas. These factors combined suggest that as the climate continues to warm, hurricanes are likely to become more intense and damaging.
Global warming can lead to changes in global precipitation patterns by increasing the frequency and intensity of extreme weather events such as heavy rainfall and droughts. Warmer temperatures can also increase evaporation rates, leading to changes in the distribution and amount of precipitation around the world. These shifts can have wide-ranging impacts on ecosystems, agriculture, and water resources.
in 1998
polar bears
Deforestation has become a global problem because forest destruction is one of the main causes of global warming. Through photosynthesis, trees and plants remove carbon dioxide from the atmosphere, slowing global warming.
When water droplets in the air become heavier than the air can hold, they fall to the ground as precipitation. This can take the form of rain, snow, sleet, or hail depending on the temperature and atmospheric conditions.
When water droplets in the atmosphere become heavier than the air can hold, they grow in size and eventually fall to the ground as precipitation, such as rain, snow, sleet, or hail. This process is known as condensation and occurs when the air reaches saturation point.
Scientists believe that hurricanes will become more destructive due to global warming because rising ocean temperatures provide more energy for storms, leading to stronger winds and increased rainfall. Warmer air can hold more moisture, resulting in heavier precipitation and higher storm surges. Additionally, sea level rise exacerbates the impact of hurricanes, increasing the risk of flooding in coastal areas. These factors combined suggest that as the climate continues to warm, hurricanes are likely to become more intense and damaging.
Global warming causes temperatures to increase, leading to less snowfall in some regions as more precipitation falls as rain instead of snow. This can result in reduced snowpack and earlier snowmelt, impacting snow-dependent ecosystems and activities like winter sports.
It's possible that some parts of the earth will become colder in the early stages of global warming. Changing wind streams can bring cold weather unexpectedly down from the Arctic, or up from the Antarctic. The failure of the Gulf Stream would certainly make Britain colder. However, if global warming continues, then everywhere will eventually become warmer.
When the clouds become to heavy with the condensed liquid, precipitation happens
Global warming can lead to changes in global precipitation patterns by increasing the frequency and intensity of extreme weather events such as heavy rainfall and droughts. Warmer temperatures can also increase evaporation rates, leading to changes in the distribution and amount of precipitation around the world. These shifts can have wide-ranging impacts on ecosystems, agriculture, and water resources.
Yes, sheep can become heavier when wet because their wool absorbs water, causing it to become heavier. This can make it more challenging for wet sheep to move around or regulate their body temperature effectively.
yes
they started to become endangered when global warming had started to increase
to become heavier
Cloud droplet and ice crystal size influence the probability of precipitation because larger droplets or crystals have a higher terminal velocity and are more likely to fall as precipitation. Smaller droplets or crystals may evaporate before reaching the ground, reducing the likelihood of precipitation. Additionally, larger droplets or crystals can collide and coalesce more easily, leading to the formation of larger raindrops or snowflakes that are more likely to fall as precipitation.