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Winds Energy From the Sun The atmosphere is the mixture of gases that surrounds the Earth. It is divided into 4 layers classified by temperature. Energy in the Atmosphere • energy in Earth’s atmosphere comes from the sun • energy travels as electromagnetic waves • Most of the energy is in the form of visible light and infrared radiation • A small amount of ultraviolet radiation Electromagnetic Energy • Different forms of electromagnetic energy have different wavelengths. • Examples of electromagnetic energy are: – – – – – – microwaves infrared light visible light ultraviolet light X-rays gamma rays. Visible light • Mixture of colors (ROYGBIV) • Different colors result of different wavelengths Infrared Radiation • Wavelengths LONGER than red light • Not visible • Felt as heat Ultraviolet radiation • Wavelengths that are SHORTER than violet light • Not visible • Causes sunburns, eye damage, skin cancer • Ozone in the stratosphere blocks most of the UV radiation Heating of the atmosphere • Some of the energy is reflected/absorbed in the atmosphere • The rest is reflected/absorbed by the surface. • The greenhouse effect is a natural process by which gases hold heat in the air warming our planet. Heat Energy • Thermal energy is the total energy of motion in the molecules of a substance. • “Heat" is used when energy is transferred from one substance to another. Heat Energy Moves Heat moves from warmer objects to cooler ones until they reach the same temperature. Heat Energy Moves • Heat can be transferred through: – Transfer of heat by direct contact (conduction) – Transfer by electromagnetic waves (radiation.) – In a liquid or gas, currents will cause the transfer of heat (convection.) Heat Moves Through the Atmosphere • Convection causes most of the heating of the troposphere. • The upward movement of warm air and the downward movement of cool air form convection currents. • These currents cause wind. What is wind? • Warm air expands and rises creating low pressure. • Cold air sinks and creates high pressure. • Winds are caused by differences in air pressure. • Winds move from high to low pressure. Summary • Heating of Earth’s surface and atmosphere by the Sun drives convection within the atmosphere producing winds. Local winds • winds that blow over short distances • Sea and land breezes • Unequal heating results in differences in pressures causing winds to blow Sea/lake and land breezes Global winds •Winds that blow steadily from specific directions over long distances •Temperature differences between the equator and the poles creates giant convection currents Coriolis Effect • Global winds do NOT blow in a straight line • The Earth’s rotation causes the global winds to curve Major Global Wind Belts • Trade winds • Prevailing westerlies • Polar easterlies Horse Latitudes and Doldrums • Areas of little to no wind Animation of global wind belts • http://vortex.weather.brockport.edu/~swe inbec/class/04_GlobalWind.swf