Well the sun of course, the clouds form a great weather system too! And this is how to make it rain: 1. the clouds form together 2. the sun tries to get it sunny again 3. the clouds pick up some water off the ground 4. it starts to snow 5. in the air, it melts because of the sun and turns it into raindrops 6. Here comes the rain!
Hope it helped! ;)
radiation from the sun
solar energy
This is true of several energy sources - especially solar energy, and wind energy.
In cold weather the water boiler which provides central heating and water heating uses the most energy.
Chemical energy changes into thermal energy and light energy.
What we call weather is the atmospheric response to unequal absorption of solar radiation and the uneven heating that results. Weather, both local and large scale, is the atmospheric process that try to restore balance in energy. The source of this energy is the Sun. The Sun gives off heat that gives us temperature on Earth. The heat from the Sun after it reaches the Earth, it rises into the atmosphere, bringing up water vapor as well, which then for into clouds, or condensation. That is where wind and precipitation come in. After the clouds become more densely full of water vapor, then comes precipitation, which then forms snow, hail, rain, or whatever falls from the sky.
Incoming radiant energy from the sun
The engine that drives atmospheric circulation is the sun - which provides the energy for the circulation.
Differences in temperature, changes in wind/weather, the earth's rotation, the revolutions of the moon and radiation from the sun.
heat energy,moisture,oxygen,&nitrogen
solar energy
The energy input from the Sun.
Condensation; is the change from gaseous phase into liquid phase
the Sun
Not really, the total energy from testing is tiny (very tiny) compared with atmospheric energy.
It changes when the catalyst substance reaches negative zero and collides with the oxygen in the atmospheric acid!
This is true of several energy sources - especially solar energy, and wind energy.
The sun provides the energy of Earth's weather by heating the surface. Differences in heating on the surface are largely responsible for the formation of weather patterns.