Yes, water does affect climate: One reason that Britain 'enjoys' a temperate, rather variable, wet climate is that the prevailing south-westerly wind passes over the Atlantic Ocean. The wind, with the warmth from the Sun, take up water vapour, form clouds, and blow the rain filled clouds over Britain.
The rotation of the Earth on its axis does not directly affect weather patterns. Rotation influences the length of day and night, but weather is primarily influenced by factors such as temperature, atmospheric pressure, humidity, and wind patterns.
Weather on Earth is primarily influenced by factors such as temperature, humidity, air pressure, and wind patterns. Factors beyond Earth, such as events in outer space, like solar flares or distant supernovas, do not directly impact Earth's weather on a day-to-day basis.
The atmosphere is the sphere of the Earth that encompasses air and weather. It is composed of different layers that extend from the Earth's surface into space and plays a crucial role in influencing climate and weather patterns.
Volcanic eruptions are not directly related to weather or climate. They occur due to activity beneath the Earth's surface, such as pressure in magma chambers or tectonic movements, rather than changes in atmospheric conditions. However, volcanic eruptions can impact climate by releasing ash and gases into the atmosphere that can affect temperatures and weather patterns.
Dust and ash from volcanic eruptions can affect Earth's climate by blocking sunlight, leading to temporary cooling. They can also impact air quality by causing respiratory issues and reducing visibility. Additionally, they can influence weather patterns and contribute to the formation of acid rain.
The sunbeam through clouds can impact Earth's climate and weather patterns by influencing the amount of solar radiation reaching the surface. This can affect temperature, cloud formation, and atmospheric circulation, leading to changes in weather conditions such as temperature fluctuations, precipitation patterns, and wind patterns.
Meteorologists study atmospheric phenomena along with weather patterns. They then relate their findings to how weather and climate affect life on earth.
When the Earth's rotation slows down, the length of a day increases. This can affect the planet's climate, weather patterns, and ecosystems.
No, space travel does not have a direct impact on Earth's weather. However, the data collected from space missions can improve weather forecasting and our understanding of climate patterns.
The moon affects our climate through its gravitational pull, which causes tides in the oceans. These tides can influence ocean currents and circulation patterns, which in turn impact weather patterns and climate. Additionally, the moon's position relative to Earth can affect the distribution of sunlight and heat, further influencing climate.
At its simplest - it shifts weather patterns from the equatorial regions towards the poles.
The rotation of the Earth on its axis does not directly affect weather patterns. Rotation influences the length of day and night, but weather is primarily influenced by factors such as temperature, atmospheric pressure, humidity, and wind patterns.
No. Weather patterns on earth, and the stars in space have absolutely no effect on each other of any kind.
Meteorology is a branch of Earth science that focuses on the study of the atmosphere, weather patterns, and climate.
Weather scientists are called meteorologists. They study the Earth's atmosphere, weather patterns, and climate to forecast and understand weather phenomena.
It just does,i'm too real
Solar energy, i.e., the energy from the Sun.