![]() ![]() Natural Solar Energy Greenhouse Effect The infrared, visible, and UV waves that reach Earth take part in a process of warming the planet and making life possible-the so-called “greenhouse effect.” About 30 percent of the solar energy that reaches Earth is reflected back into space. The color red has the longest wavelengths (closest to infrared), and violet (closest to UV) the shortest. Sandwiched between infrared and UV is the visible spectrum, which contains all the colors we see on Earth. Most heat from the sun arrives as infrared energy. The sun also emits infrared radiation, whose waves are much lower-frequency. Less potent UV rays travel through the atmosphere, and can cause sunburn. The most harmful UV rays are almost completely absorbed by Earth’s atmosphere. The most high-frequency waves emitted by the sun are gamma rays, X-rays, and ultraviolet radiation (UV rays). The vast majority of electromagnetic waves are invisible to us. In contrast, low-frequency waves have much longer wavelengths. Waves with very short wavelengths repeat themselves several times in a given unit of time, so they are high-frequency. The frequency of a wave represents how many times the wave repeats itself in a certain unit of time. The electromagnetic spectrum exists as waves of different frequencies and wavelengths. The energy, heat, and light from the sun flow away in the form of electromagnetic radiation (EMR). Solar energy warms Earth, causes wind and weather, and sustains plant and animal life. Solar energy is constantly flowing away from the sun and throughout the solar system. Nuclear fusion by the PP chain reaction or CNO cycle releases tremendous amounts of energy in the form of waves and particles. Currently, less than two percent of the sun’s energy is created by the CNO cycle. The CNO cycle also converts hydrogen to helium, but relies on carbon, nitrogen, and oxygen (C, N, and O) to do so. In stars that are about 1.3 times bigger than the sun, the CNO cycle drives the creation of energy. The temperature for these stars is around 4 million degrees on the Kelvin scale (about 4 million degrees Celsius, 7 million degrees Fahrenheit). The PP chain reaction occurs in other stars that are about the size of our sun, and provides them with continuous energy and heat. In its core, the sun fuses about 620 million metric tons of hydrogen every second. This process, known as a PP (proton-proton) chain reaction, emits an enormous amount of energy. Fusion occurs when protons of hydrogen atoms violently collide in the sun’s core and fuse to create a helium atom. Solar energy is created by nuclear fusion that takes place in the sun. No new orders for nuclear power plants have been placed in the US since the mid 1970s.Solar energy is any type of energy generated by the sun. Nuclear electricity generation became unpopular in the United States after the accident at Three Mile Island in 1979. Coal provides about 55% of the country's electricity, natural gas (9%), oil (6%), and hydropower (9%). nuclear energy program is the world's largest with 108 operating plants with 100, 000 MW capacity, providing some 20% of the country's electricity in 1989. 130 more were in design or construction stages. This is usually done in a Boiling Water Reactor ( BWR) or a Pressurized Water Reactor ( PWR), but there are other options such as the fast breeder reactor.Īt the end of 1989 there were 416 nuclear fission power plants operating worldwide, producing about 17% of the worlds electricity. The heat from the nuclear fission is used to: Nuclear fusion: the combining of light nuclei.Ĭurrent uses of nuclear energy must rely on nuclear fission, a less-than-ideal energy source, since nuclear fusion has yet to be harnessed for electricity generation. A fractionof the mass can be converted to energy by: Nuclear fission: the breaking up of heavy nuclei. However, direct mass conversion is not possible on a large scale. ![]() citizen per year(used as a reference unit ) would require: To supply the yearly average of 5 x 10 11 joules per U.S. * This amount will be used as a comparison unit when discussingĮnergy production by nuclear fission and nuclear fusion. citizens for one year, or the needs of a city of one million for over two months. So one kilogram of mass conversion could supply the needs of about 180,000 U.S. citizen for one year is about 1 US year* = 5 x 10 11 Joules The yield from converting one kilogram is E=(1 kg)(3 x 10 8) 2= 9 x 10 16 joules Mass can be converted into energy with a yield governed by the Einstein relationship: E=mc 2 Energy from Nuclear Processes Energy a la Einstein ![]()
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