Convection
yes
it the sun solar
The temperature of that particular day
things expand when heated and contract when cooled. This seasaw action creates cracks and weakness in structures/landforms and causes weathering.
Ocean currents. This could also apply to wind currents.
The process responsible for many weather patterns in the atmosphere is called atmospheric circulation. This circulation is driven by the Earth's rotation, the heating and cooling of the atmosphere, and the distribution of heat around the globe.
earth surface
The Earth is currently heating up, primarily due to human activities that are increasing greenhouse gas concentrations in the atmosphere, leading to global warming. This is causing changes in climate patterns and impacting ecosystems around the world.
No, tectonic plates underground and the moon affects the ocean
The major cause is the presence or absence of solar radiation i.e. sunlight.
You have to manually select the heating, and cooling mode located on your thermostat.
a artificial atmosphere, a highly cooling and heating suit and a space ship able to enter and exit the original atmosphere.
Your question can be rephrased as two linked question. "How does climate affect patterns of heating and cooling?" and "How do mountains and bodies of water affect climate?" The answer to the first should be obvious to you. The second is not really an HVAC question.
Consultation of a licensed heating/cooling contractor is advisable when considering separating the heating and cooling units. The Guide to Heating and Air Conditioning is an excellent resource for information on heating/cooling repair work.
Uneven heating of the Earth's atmosphere creates differences in temperature and pressure, which drive weather patterns and circulation of air masses. This creates winds, storms, and other weather events as the atmosphere seeks to balance these temperature and pressure variations.
Uneven heating of Earth and its atmosphere causes air to move, leading to the formation of winds, storms, and weather patterns. This process is known as atmospheric circulation and is driven by the redistribution of heat from the equator to the poles.