The Sun is the reason for all of Earth's weather. The uneven heating of the Earth's surface is the basis for wind and pressure systems. Where there is little solar heating, cold air forms dense high pressure systems. Where there is considerable heating, convection and the Earth's rotation govern the movement of the heated air.
Heat from the sun, movement of the sea and the rotation of the earth all play a part in generating our weather.
One hypothesis is that the distribution of solar energy received by the Earth's surface drives the global atmospheric circulation patterns, which in turn influence weather and climate patterns. This energy from the sun provides the heat necessary to drive processes such as evaporation, convection, and winds, which play a key role in shaping weather and climate conditions.
Weather on Earth primarily depends on the sun. The sun provides heat and energy to drive weather systems and patterns. The moon does have some effects on weather, such as influencing tides, but its impact is secondary to the sun's influence.
Climates and weather activities are primarily driven by the interaction of the sun's energy with the Earth's atmosphere and surface. Factors such as temperature, pressure, humidity, and wind patterns all play a role in shaping weather patterns and long-term climate trends. Additionally, other influences like ocean currents and topography can also contribute to the variability of weather and climate in different regions.
Planets and stars do not have a direct impact on Earth's weather. Weather on Earth is primarily influenced by factors such as the Sun, atmosphere, ocean currents, and land formations. The Sun provides the energy necessary to drive weather patterns on Earth through processes like evaporation and convection.
The primary energy source for Earth's weather systems is the Sun. Solar radiation heats the Earth's surface, creating temperature differences that drive atmospheric circulation and weather patterns. Other factors, such as the Earth's rotation and the distribution of land and sea, also play a role in shaping weather systems.
No role, at all. None. Even the Earth and Sun have no part to play.
Weather is caused by the interactions between the atmosphere, the sun's energy, the Earth's rotation, and the distribution of land and water on the planet. Factors such as temperature, air pressure, humidity, and wind patterns all play a role in determining the weather conditions in a specific area.
Water plays a key role in the transfer of sun energy to Earth through the water cycle. The heat from the sun causes water to evaporate from the Earth's surface, forming clouds that reflect some sunlight back into space. When the clouds precipitate, it releases latent heat energy, which can impact weather patterns and regulate the Earth's climate.
The Sun is essential for life on Earth as it provides light and heat for photosynthesis and warmth. It also influences the Earth's climate and weather patterns through solar radiation. Additionally, the Sun's magnetic field and solar winds interact with Earth's magnetic field, affecting phenomena like the northern lights and space weather.
Earth's weather is primarily caused by the interactions between the atmosphere, the Sun's energy, and the Earth's rotation. Factors such as temperature, humidity, air pressure, and wind patterns play key roles in shaping the weather patterns we experience.
Heat from the sun, movement of the sea and the rotation of the earth all play a part in generating our weather.
it gives earth sunlight and life to its enviroment.
The primary source of all weather on Earth is the interaction between the sun's energy and the Earth's atmosphere. This energy drives processes such as temperature changes, air pressure variances, and the water cycle, which result in the different weather patterns we experience. Atmospheric conditions, such as temperature, humidity, and air movement, also play a significant role in shaping the weather.
The term used to describe the main source of energy that drives the Earth's weather is "solar energy," as it originates from the Sun. Solar energy is responsible for driving processes like air circulation, temperature variations, and the water cycle, all of which play a key role in shaping the Earth's weather patterns.
weather comes from the earth
One hypothesis is that the distribution of solar energy received by the Earth's surface drives the global atmospheric circulation patterns, which in turn influence weather and climate patterns. This energy from the sun provides the heat necessary to drive processes such as evaporation, convection, and winds, which play a key role in shaping weather and climate conditions.