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These fields are synchronized and at right angles to one another. Electromagnetic waves travel through space at the speed of light, which is approximately 300 million meters per second. \n\nElectromagnetic waves can be classified into different categories based on their frequency, such as radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, X-rays and gamma rays.\n\n ![Graph](image://fee57e6f-811a-4d9a-bc7f-12d316e7ce2b \"Electromagnetic waves. Image: DECHAMMAKL, CC BY-SA 4.0, via Wikimedia Commons\")\n\nRadio waves have the longest wavelength and lowest frequency among all electromagnetic waves. Their wavelengths range from around the size of buildings to about the size of a coin. As wavelength decreases, the electromagnetic spectrum moves through microwaves, infrared radiation, visible light, ultraviolet radiation and X-rays. The shortest waves on the electromagnetic spectrum, with the highest energies, are gamma rays. Gamma rays have wavelengths less than 100 picometers (pm), around the size of atomic nuclei.\n\n","71c60fa5-449f-48e3-aaf9-25244efe6705",[35],{"id":36,"data":37,"type":38,"version":20,"maxContentLevel":19},"270407c6-e18b-4333-a382-d7483d6402fc",{"type":38,"reviewType":19,"spacingBehaviour":20,"multiChoiceQuestion":39,"multiChoiceCorrect":41,"multiChoiceIncorrect":43},11,[40],"What is the approximate speed of electromagnetic waves?",[42],"300 million meters per second",[44,45,46],"100 million meters per second","500 million meters per second","200 million meters per second",{"id":48,"data":49,"type":20,"maxContentLevel":19,"version":20,"reviews":53},"c494631e-67de-4f4d-a56b-823daaf6c167",{"type":20,"title":50,"markdownContent":51,"audioMediaId":52},"Properties of electromagnetic waves","Electromagnetic waves are forms of energy that travel through space extremely fast - at the rate of 299 792 458 m / s. This is exactly the speed of light. It means that electromagnetic waves can travel from Earth to the Moon in just 1.3 seconds! As far as we know, nothing travels faster. They have no mass and can travel through a vacuum, meaning they do not need any medium such as air or water to propagate.\n\n ![Graph](image://300c949c-f4d4-4088-aa03-bd216b87cb81 \"Radio waves\")\n\nThe properties of an electromagnetic wave depend on each other; higher frequencies correspond to higher energies and shorter wavelengths and vice versa. For example, radio waves have the longest wavelength and lowest frequency among all electromagnetic waves while gamma rays have the shortest wavelength and highest frequency. Electromagnetic radiation also has different effects depending on its frequency; for instance, visible light allows us to see things around us while X-rays allow doctors to look inside our bodies without surgery.\n\n","12cdab8c-b1dc-4d30-9664-8b397249f669",[54],{"id":55,"data":56,"type":38,"version":20,"maxContentLevel":19},"64a39de0-2828-40e2-84b2-841490fa61fe",{"type":38,"reviewType":20,"spacingBehaviour":20,"activeRecallQuestion":57,"activeRecallAnswers":59},[58],"What is the speed at which electromagnetic waves travel?",[60],"299 792 458 m/s",{"id":62,"data":63,"type":20,"maxContentLevel":19,"version":20,"reviews":67},"0993502f-96bd-4a61-a389-c1f7d8e7d79b",{"type":20,"title":64,"markdownContent":65,"audioMediaId":66},"Electromagnetic spectrum","The electromagnetic spectrum is the range of all possible frequencies of electromagnetic radiation. It consists of seven distinct categories, each with its own unique wavelength range: radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, X-rays and gamma rays. Radio waves have the longest wavelengths and lowest frequencies while gamma rays have the shortest wavelengths and highest frequencies.\n\nRadio waves are used for communication purposes such as broadcasting radio signals or transmitting data from satellites to Earth; they can travel through walls and other obstacles due to their long wavelength. Microwaves are used in microwave ovens to heat food quickly by exciting water molecules in the food with high-frequency electromagnetic radiation; they also allow us to communicate via satellite phones even when we’re far away from cellular towers. \n\nInfrared radiation has shorter wavelengths than microwaves and is emitted by warm objects like our bodies; it can be detected using thermal imaging cameras which allow us to see things due to their temperature, which would otherwise be invisible, e.g. at night. \n\nVisible light has an even shorter wavelength than infrared radiation and consists of all colors we can see with our eyes - red, orange, yellow, green, blue, indigo, violet - each color having its own unique wavelength range between 400 nanometers (violet) and 700 nanometers (red). Ultraviolet radiation has a much shorter wavelength than visible light and is responsible for sunburns when exposed too long without protection; it also helps plants photosynthesize by providing them with energy from sunlight.","ecf0facc-84fa-48fa-ab89-9fc77febf26c",[68],{"id":69,"data":70,"type":38,"version":20,"maxContentLevel":19},"34d17a4a-e509-4daa-81da-9131ff3c2d5e",{"type":38,"reviewType":19,"spacingBehaviour":20,"multiChoiceQuestion":71,"multiChoiceCorrect":73,"multiChoiceIncorrect":75},[72],"What type of radiation has the shortest wavelength and highest frequency?",[74],"Gamma rays",[76,77,78],"Radio waves","Infrared radiation","Visible light",{"id":80,"data":81,"type":25,"version":20,"maxContentLevel":19,"pages":83},"422bcda0-3188-48ac-bb6d-19a8fe3a9638",{"type":25,"title":82},"Types of Electromagnetic Radiation",[84,100,118],{"id":85,"data":86,"type":20,"maxContentLevel":19,"version":20,"reviews":89},"db826fe8-3ffe-4627-8e84-f2f0ee600376",{"type":20,"title":76,"markdownContent":87,"audioMediaId":88},"Radio waves are the longest and lowest frequency type of electromagnetic radiation. Radio waves are generally considered to have frequencies between 300 gigahertz (GHz) and 3 kilohertz (KHz), with corresponding wavelengths ranging from 1 millimeter to up to 100 kilometers. For some purposes, such as radio communication, they can be divided into two categories: ground waves and sky waves. Ground waves travel parallel to the surface of the Earth, while sky waves are reflected off the ionosphere back down to Earth.\n\n\n ![Graph](image://0abc7c1d-50ca-4058-9db6-969dc2e27acd \"A satellite in space\")\n\nNatural sources of radio waves include lightning strikes which generate short bursts of energy in the form of radio signals; these signals can be detected by special receivers known as lightning detectors. Radio waves can also be artificially generated using transmitters such as those used for broadcasting radio stations or transmitting data from satellites to Earth's surface. These transmitters convert electrical signals into electromagnetic radiation which is then sent out through space at light speed using an antenna.\n\nSome radio waves can diffract around obstacles like mountains due to their long wavelengths.\n","1327e9f5-3411-44f1-9498-eecfd737a298",[90],{"id":91,"data":92,"type":38,"version":20,"maxContentLevel":19},"30e996ae-1a1f-48fd-a97b-3005ea760079",{"type":38,"reviewType":19,"spacingBehaviour":20,"multiChoiceQuestion":93,"multiChoiceCorrect":95,"multiChoiceIncorrect":96},[94],"What type of energy is generated by lightning strikes and can be detected by lightning detectors?",[76],[97,98,99],"Infrared waves","Gamma waves","Ultraviolet waves",{"id":101,"data":102,"type":20,"maxContentLevel":19,"version":20,"reviews":106},"4c0b6db0-6719-4ea5-9c21-62a34a0f7f2f",{"type":20,"title":103,"markdownContent":104,"audioMediaId":105},"Microwaves","Microwaves are a type of electromagnetic radiation with wavelengths ranging from 1 millimeter to 1 meter. Some wavelengths of microwaves have the ability to penetrate Earth's atmosphere, allowing them to be used for communication with satellites. Microwaves are also used for communication and navigation purposes on Earth.\n\n ![Graph](image://89487cb6-819f-4ac1-a49d-0861c3ac458f \"A microwave oven in use\")\n\nMicrowave ovens use microwaves as they are less strongly absorbed by food than other types of radiation, allowing them to penetrate and heat food quickly.\n\nThe cosmic microwave background (CMB) is an isotropic radiation that permeates all of space, originating from the Big Bang about 13.8 billion years ago. It has a temperature of 2.7 Kelvin (-270°C), and is most apparent at frequencies between 70 and 217 GHz - within the microwave spectrum! The CMB provides us with valuable information about our universe’s history, such as its age, composition, density and expansion rate over time. \n\nAdditionally, it serves as evidence for inflationary cosmology models which suggest that our universe underwent rapid expansion in its early stages after the Big Bang event occurred.\n","79415016-450b-4bd3-83f1-728771fb737a",[107],{"id":108,"data":109,"type":38,"version":20,"maxContentLevel":19},"eea1b707-61df-4675-993b-82860dc574fd",{"type":38,"reviewType":19,"spacingBehaviour":20,"multiChoiceQuestion":110,"multiChoiceCorrect":112,"multiChoiceIncorrect":114},[111],"What is the temperature of the cosmic microwave background radiation?",[113],"2.7 Kelvin",[115,116,117],"0 Kelvin","5 Kelvin","-273.15 Celsius",{"id":119,"data":120,"type":20,"maxContentLevel":19,"version":20,"reviews":123},"0e1048f1-7ad0-43b2-94d2-ca043b5c846e",{"type":20,"title":77,"markdownContent":121,"audioMediaId":122},"Infrared radiation is a type of electromagnetic radiation with wavelengths ranging from around 700 nanometers to 1 millimeter. It cannot be seen by the human eye, but can be sensed as heat. Infrared radiation is often divided into three categories: near infrared (NIR), mid-infrared (MIR) and far infrared (FIR). According to one classification, NIR has wavelengths between 700 nm and 1400 nm, MIR ranges from 1400 nm to 3000 nm, while FIR has wavelengths longer than 3000nm.\n\n ![Graph](image://6fe98de8-b363-4bee-bef1-424a8fe6d753 \"Someone using a remote control on a TV/\")\n\nInfrared light plays an important role in many everyday applications such as remote controls for TVs and other electronic devices which use NIR signals to transmit information. Telescopes also make use of infrared light to observe distant objects in space that are too faint or obscured by dust clouds when viewed through visible light alone. Mid-infrared spectroscopy can be used in medical diagnostics for detecting diseases like cancer at early stages, while FIR saunas may provide therapeutic benefits due to their ability to penetrate deep into the body’s tissues. Additionally, some animals including snakes such as vipers have evolved special organs called pit organs which allow them to detect infrared frequencies emitted by warm blooded prey even in complete darkness!\n\n","753acd6b-409e-470c-988b-a745d12a6a82",[124],{"id":125,"data":126,"type":38,"version":20,"maxContentLevel":19},"6c86854f-3f6c-4be1-95c9-0e1382cc26cd",{"type":38,"reviewType":19,"spacingBehaviour":20,"multiChoiceQuestion":127,"multiChoiceCorrect":129,"multiChoiceIncorrect":131},[128],"What range of wavelengths does infrared radiation have?",[130],"700 nanometers to 1 millimeter",[132,133,134],"400 nanometers to 1 millimeter","700 nanometers to 2 millimeters","400 nanometers to 2 millimeters",{"id":136,"data":137,"type":25,"version":20,"maxContentLevel":19,"pages":139},"389c5945-658c-4a5f-9e16-8c3c824d23d5",{"type":25,"title":138},"Applications of Electromagnetic Waves",[140,155,172,189],{"id":141,"data":142,"type":20,"maxContentLevel":19,"version":20,"reviews":145},"46889d50-67d8-4bb8-8105-0b4709dc97f9",{"type":20,"title":78,"markdownContent":143,"audioMediaId":144},"Visible light is a type of electromagnetic radiation with wavelengths ranging from around 380 nanometers to around 700 nanometers. This range of wavelengths corresponds to the colors we can see, from violet at the shortest wavelength and highest frequency, to red at the longest wavelength and lowest frequency. When visible light enters our eyes, it passes through the cornea which refracts it onto the lens where it is focused on the retina. The rods and cones in our retinas then convert this light into electrical signals that are sent to our brains for processing.\n\n ![Graph](image://47dca1a2-e824-4a5e-b78b-c5d048463191 \"A 3D printing machine. Image: ESA, CC BY-SA IGO 3.0, CC BY-SA 3.0 IGO, via Wikimedia Commons\")\n\nVisible light has many applications in modern technology such as visible lasers, barcode scanners, CD/DVD players and 3D printing machines.","8a6ebbab-1ad3-4c88-9d82-ce0868aa7f3d",[146],{"id":147,"data":148,"type":38,"version":20,"maxContentLevel":19},"837c12c6-2865-4796-9e7c-1e66b2fc775b",{"type":38,"reviewType":19,"spacingBehaviour":20,"multiChoiceQuestion":149,"multiChoiceCorrect":151,"multiChoiceIncorrect":152},[150],"What type of electromagnetic radiation has a wavelength range of 380 to 700 nanometers?",[78],[77,153,154],"Ultraviolet radiation","X-ray radiation",{"id":156,"data":157,"type":20,"maxContentLevel":19,"version":20,"reviews":160},"a55a0229-425c-4e4d-858b-81a329f499b6",{"type":20,"title":153,"markdownContent":158,"audioMediaId":159},"\n ![Graph](image://699567ad-260e-45d3-8cb4-c5fc1d90cf95 \"Someone standing in the sun\")\n\nUltraviolet radiation is a type of electromagnetic radiation generally considered to have wavelengths ranging from 100 nanometers to 400 nanometers. It is divided into three categories: UVA, UVB and UVC. UVA has the longest wavelength and lowest energy, while UVC has the shortest wavelength and highest energy.\n\nThe sun is one of the most common sources of ultraviolet radiation, emitting both UVA and UVB rays which can cause skin damage such as sunburns or even skin cancer if exposed for too long without protection. Other sources include black lights used in nightclubs, welding arcs, tanning beds and germicidal lamps used to sterilize objects by killing bacteria on their surfaces.\n\nUltraviolet radiation can also be used for beneficial purposes such as creating fluorescent effects in paints or fabrics that glow under certain lighting conditions. Additionally, it can be used to sterilize medical instruments by breaking down DNA molecules within microorganisms so they cannot reproduce anymore. This process is known as ultraviolet germicidal irradiation (UVGI).\n","b91d5888-f9b1-49c7-8a39-981129e0dc52",[161],{"id":162,"data":163,"type":38,"version":20,"maxContentLevel":19},"53bcd083-4e72-403c-859f-913622a542c5",{"type":38,"reviewType":19,"spacingBehaviour":20,"multiChoiceQuestion":164,"multiChoiceCorrect":166,"multiChoiceIncorrect":168},[165],"What process is used to break down DNA molecules within microorganisms so they cannot reproduce anymore?",[167],"Ultraviolet germicidal irradiation (UVGI)",[169,170,171],"Ultraviolet sterilization","Ultraviolet disinfection","Ultraviolet sanitization",{"id":173,"data":174,"type":20,"maxContentLevel":19,"version":20,"reviews":178},"d36c2fff-be48-4651-a060-96e89f7e6ab4",{"type":20,"title":175,"markdownContent":176,"audioMediaId":177},"X-rays","X-rays are a type of electromagnetic radiation with wavelengths ranging from 0.01 nanometers to 10 nanometers, making them shorter than ultraviolet and visible light but longer than gamma rays. X-rays can be divided into two categories: soft x-rays (wavelengths between 0.1 and 10 nm) and hard x-rays (wavelengths between 0.2 and 0.01 nm).\n\n ![Graph](image://cb81e9d7-0235-4981-bb30-71d2cdcea0bb \"An X-ray machine. Image: Nick Smith photography, CC BY-SA 3.0, via Wikimedia Commons\")\n\nSoft x-rays have lower energy levels than hard x-rays. Because of their penetrating ability, hard x-rays can be used to see inside objects which are otherwise opaque. X-ray machines used in hospitals use both types of radiation depending on the application required; for example, mammograms require low energy soft x-ray beams while high energy hard x-ray beams can be used to look for fractures in bones.\n\nMost forms of X–ray cannot penetrate Earth's atmosphere due to its protective ozone layer which absorbs most incoming radiation before it reaches the surface; however some cosmic ray particles do make it through this barrier and can cause damage if exposed for too long without protection.\n\n","a9de55d1-e7c7-4346-ae52-d7cd226768e0",[179],{"id":180,"data":181,"type":38,"version":20,"maxContentLevel":19},"b832334b-242c-42c8-8fdd-3995e758ba4d",{"type":38,"reviewType":19,"spacingBehaviour":20,"multiChoiceQuestion":182,"multiChoiceCorrect":184,"multiChoiceIncorrect":186},[183],"What type of radiation has a wavelength between 0.01 and 0.2 nanometers?",[185],"Hard X-rays",[187,188,74],"Soft X-rays","Ultraviolet light",{"id":190,"data":191,"type":20,"maxContentLevel":19,"version":20,"reviews":194},"f32c0b63-d82b-4e92-98d7-a78b35391f63",{"type":20,"title":74,"markdownContent":192,"audioMediaId":193},"Gamma rays are a form of electromagnetic radiation, with wavelengths under 10 picometers (pm). This is incredibly short - a picometer is a trillionth of a meter. They have the highest frequency and energy of all forms of light, and can penetrate through most materials more easily than X-rays. Gamma rays are produced by the most extremely energetic objects in the universe - including neutron stars and supernova explosions. They are also produced during nuclear reactions such as those in radioactive decay or in nuclear explosions.\n\nUnfortunately, gamma rays are also highly dangerous for living organisms due to their ability to ionize atoms and molecules they come into contact with. This can damage DNA and tissues within bodies. Fortunately, most gamma rays do not penetrate Earth's atmosphere - it acts as a shield against them, protecting us from their potentially harmful effects on our bodies. Exposure to large doses of gamma radiation can cause radiation sickness and severe damage including cell death, genetic mutations and cancerous growths. Even small amounts can lead to increased risk of developing certain types of cancers later in life.\n","76865514-c46e-4a54-8739-b543860eca1d",[195],{"id":196,"data":197,"type":38,"version":20,"maxContentLevel":19},"89ac80ac-2dff-49f3-9eb5-ee5305de550c",{"type":38,"reviewType":19,"spacingBehaviour":20,"multiChoiceQuestion":198,"multiChoiceCorrect":200,"multiChoiceIncorrect":201},[199],"What is the highest frequency and energy form of electromagnetic radiation?",[74],[76,103,99],[203,293,385],{"id":23,"data":24,"type":25,"version":20,"maxContentLevel":19,"pages":204},[205,242,266],{"id":29,"data":30,"type":20,"maxContentLevel":19,"version":20,"reviews":34,"parsed":206},{"data":207,"body":210,"toc":240},{"title":208,"description":209},"","Electromagnetic waves are a form of energy that is made up of oscillating electric and magnetic fields. These fields are synchronized and at right angles to one another. Electromagnetic waves travel through space at the speed of light, which is approximately 300 million meters per second.",{"type":211,"children":212},"root",[213,220,225,235],{"type":214,"tag":215,"props":216,"children":217},"element","p",{},[218],{"type":219,"value":209},"text",{"type":214,"tag":215,"props":221,"children":222},{},[223],{"type":219,"value":224},"Electromagnetic waves can be classified into different categories based on their frequency, such as radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, X-rays and gamma rays.",{"type":214,"tag":215,"props":226,"children":227},{},[228],{"type":214,"tag":229,"props":230,"children":234},"img",{"alt":231,"src":232,"title":233},"Graph","image://fee57e6f-811a-4d9a-bc7f-12d316e7ce2b","Electromagnetic waves. Image: DECHAMMAKL, CC BY-SA 4.0, via Wikimedia Commons",[],{"type":214,"tag":215,"props":236,"children":237},{},[238],{"type":219,"value":239},"Radio waves have the longest wavelength and lowest frequency among all electromagnetic waves. Their wavelengths range from around the size of buildings to about the size of a coin. As wavelength decreases, the electromagnetic spectrum moves through microwaves, infrared radiation, visible light, ultraviolet radiation and X-rays. The shortest waves on the electromagnetic spectrum, with the highest energies, are gamma rays. Gamma rays have wavelengths less than 100 picometers (pm), around the size of atomic nuclei.",{"title":208,"searchDepth":25,"depth":25,"links":241},[],{"id":48,"data":49,"type":20,"maxContentLevel":19,"version":20,"reviews":53,"parsed":243},{"data":244,"body":246,"toc":264},{"title":208,"description":245},"Electromagnetic waves are forms of energy that travel through space extremely fast - at the rate of 299 792 458 m / s. This is exactly the speed of light. It means that electromagnetic waves can travel from Earth to the Moon in just 1.3 seconds! As far as we know, nothing travels faster. They have no mass and can travel through a vacuum, meaning they do not need any medium such as air or water to propagate.",{"type":211,"children":247},[248,252,259],{"type":214,"tag":215,"props":249,"children":250},{},[251],{"type":219,"value":245},{"type":214,"tag":215,"props":253,"children":254},{},[255],{"type":214,"tag":229,"props":256,"children":258},{"alt":231,"src":257,"title":76},"image://300c949c-f4d4-4088-aa03-bd216b87cb81",[],{"type":214,"tag":215,"props":260,"children":261},{},[262],{"type":219,"value":263},"The properties of an electromagnetic wave depend on each other; higher frequencies correspond to higher energies and shorter wavelengths and vice versa. For example, radio waves have the longest wavelength and lowest frequency among all electromagnetic waves while gamma rays have the shortest wavelength and highest frequency. Electromagnetic radiation also has different effects depending on its frequency; for instance, visible light allows us to see things around us while X-rays allow doctors to look inside our bodies without surgery.",{"title":208,"searchDepth":25,"depth":25,"links":265},[],{"id":62,"data":63,"type":20,"maxContentLevel":19,"version":20,"reviews":67,"parsed":267},{"data":268,"body":270,"toc":291},{"title":208,"description":269},"The electromagnetic spectrum is the range of all possible frequencies of electromagnetic radiation. It consists of seven distinct categories, each with its own unique wavelength range: radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, X-rays and gamma rays. Radio waves have the longest wavelengths and lowest frequencies while gamma rays have the shortest wavelengths and highest frequencies.",{"type":211,"children":271},[272,276,281,286],{"type":214,"tag":215,"props":273,"children":274},{},[275],{"type":219,"value":269},{"type":214,"tag":215,"props":277,"children":278},{},[279],{"type":219,"value":280},"Radio waves are used for communication purposes such as broadcasting radio signals or transmitting data from satellites to Earth; they can travel through walls and other obstacles due to their long wavelength. Microwaves are used in microwave ovens to heat food quickly by exciting water molecules in the food with high-frequency electromagnetic radiation; they also allow us to communicate via satellite phones even when we’re far away from cellular towers.",{"type":214,"tag":215,"props":282,"children":283},{},[284],{"type":219,"value":285},"Infrared radiation has shorter wavelengths than microwaves and is emitted by warm objects like our bodies; it can be detected using thermal imaging cameras which allow us to see things due to their temperature, which would otherwise be invisible, e.g. at night.",{"type":214,"tag":215,"props":287,"children":288},{},[289],{"type":219,"value":290},"Visible light has an even shorter wavelength than infrared radiation and consists of all colors we can see with our eyes - red, orange, yellow, green, blue, indigo, violet - each color having its own unique wavelength range between 400 nanometers (violet) and 700 nanometers (red). Ultraviolet radiation has a much shorter wavelength than visible light and is responsible for sunburns when exposed too long without protection; it also helps plants photosynthesize by providing them with energy from sunlight.",{"title":208,"searchDepth":25,"depth":25,"links":292},[],{"id":80,"data":81,"type":25,"version":20,"maxContentLevel":19,"pages":294},[295,325,360],{"id":85,"data":86,"type":20,"maxContentLevel":19,"version":20,"reviews":89,"parsed":296},{"data":297,"body":299,"toc":323},{"title":208,"description":298},"Radio waves are the longest and lowest frequency type of electromagnetic radiation. Radio waves are generally considered to have frequencies between 300 gigahertz (GHz) and 3 kilohertz (KHz), with corresponding wavelengths ranging from 1 millimeter to up to 100 kilometers. For some purposes, such as radio communication, they can be divided into two categories: ground waves and sky waves. Ground waves travel parallel to the surface of the Earth, while sky waves are reflected off the ionosphere back down to Earth.",{"type":211,"children":300},[301,305,313,318],{"type":214,"tag":215,"props":302,"children":303},{},[304],{"type":219,"value":298},{"type":214,"tag":215,"props":306,"children":307},{},[308],{"type":214,"tag":229,"props":309,"children":312},{"alt":231,"src":310,"title":311},"image://0abc7c1d-50ca-4058-9db6-969dc2e27acd","A satellite in space",[],{"type":214,"tag":215,"props":314,"children":315},{},[316],{"type":219,"value":317},"Natural sources of radio waves include lightning strikes which generate short bursts of energy in the form of radio signals; these signals can be detected by special receivers known as lightning detectors. Radio waves can also be artificially generated using transmitters such as those used for broadcasting radio stations or transmitting data from satellites to Earth's surface. These transmitters convert electrical signals into electromagnetic radiation which is then sent out through space at light speed using an antenna.",{"type":214,"tag":215,"props":319,"children":320},{},[321],{"type":219,"value":322},"Some radio waves can diffract around obstacles like mountains due to their long wavelengths.",{"title":208,"searchDepth":25,"depth":25,"links":324},[],{"id":101,"data":102,"type":20,"maxContentLevel":19,"version":20,"reviews":106,"parsed":326},{"data":327,"body":329,"toc":358},{"title":208,"description":328},"Microwaves are a type of electromagnetic radiation with wavelengths ranging from 1 millimeter to 1 meter. Some wavelengths of microwaves have the ability to penetrate Earth's atmosphere, allowing them to be used for communication with satellites. Microwaves are also used for communication and navigation purposes on Earth.",{"type":211,"children":330},[331,335,343,348,353],{"type":214,"tag":215,"props":332,"children":333},{},[334],{"type":219,"value":328},{"type":214,"tag":215,"props":336,"children":337},{},[338],{"type":214,"tag":229,"props":339,"children":342},{"alt":231,"src":340,"title":341},"image://89487cb6-819f-4ac1-a49d-0861c3ac458f","A microwave oven in use",[],{"type":214,"tag":215,"props":344,"children":345},{},[346],{"type":219,"value":347},"Microwave ovens use microwaves as they are less strongly absorbed by food than other types of radiation, allowing them to penetrate and heat food quickly.",{"type":214,"tag":215,"props":349,"children":350},{},[351],{"type":219,"value":352},"The cosmic microwave background (CMB) is an isotropic radiation that permeates all of space, originating from the Big Bang about 13.8 billion years ago. It has a temperature of 2.7 Kelvin (-270°C), and is most apparent at frequencies between 70 and 217 GHz - within the microwave spectrum! The CMB provides us with valuable information about our universe’s history, such as its age, composition, density and expansion rate over time.",{"type":214,"tag":215,"props":354,"children":355},{},[356],{"type":219,"value":357},"Additionally, it serves as evidence for inflationary cosmology models which suggest that our universe underwent rapid expansion in its early stages after the Big Bang event occurred.",{"title":208,"searchDepth":25,"depth":25,"links":359},[],{"id":119,"data":120,"type":20,"maxContentLevel":19,"version":20,"reviews":123,"parsed":361},{"data":362,"body":364,"toc":383},{"title":208,"description":363},"Infrared radiation is a type of electromagnetic radiation with wavelengths ranging from around 700 nanometers to 1 millimeter. It cannot be seen by the human eye, but can be sensed as heat. Infrared radiation is often divided into three categories: near infrared (NIR), mid-infrared (MIR) and far infrared (FIR). According to one classification, NIR has wavelengths between 700 nm and 1400 nm, MIR ranges from 1400 nm to 3000 nm, while FIR has wavelengths longer than 3000nm.",{"type":211,"children":365},[366,370,378],{"type":214,"tag":215,"props":367,"children":368},{},[369],{"type":219,"value":363},{"type":214,"tag":215,"props":371,"children":372},{},[373],{"type":214,"tag":229,"props":374,"children":377},{"alt":231,"src":375,"title":376},"image://6fe98de8-b363-4bee-bef1-424a8fe6d753","Someone using a remote control on a TV/",[],{"type":214,"tag":215,"props":379,"children":380},{},[381],{"type":219,"value":382},"Infrared light plays an important role in many everyday applications such as remote controls for TVs and other electronic devices which use NIR signals to transmit information. Telescopes also make use of infrared light to observe distant objects in space that are too faint or obscured by dust clouds when viewed through visible light alone. Mid-infrared spectroscopy can be used in medical diagnostics for detecting diseases like cancer at early stages, while FIR saunas may provide therapeutic benefits due to their ability to penetrate deep into the body’s tissues. Additionally, some animals including snakes such as vipers have evolved special organs called pit organs which allow them to detect infrared frequencies emitted by warm blooded prey even in complete darkness!",{"title":208,"searchDepth":25,"depth":25,"links":384},[],{"id":136,"data":137,"type":25,"version":20,"maxContentLevel":19,"pages":386},[387,412,442,472],{"id":141,"data":142,"type":20,"maxContentLevel":19,"version":20,"reviews":145,"parsed":388},{"data":389,"body":391,"toc":410},{"title":208,"description":390},"Visible light is a type of electromagnetic radiation with wavelengths ranging from around 380 nanometers to around 700 nanometers. This range of wavelengths corresponds to the colors we can see, from violet at the shortest wavelength and highest frequency, to red at the longest wavelength and lowest frequency. When visible light enters our eyes, it passes through the cornea which refracts it onto the lens where it is focused on the retina. The rods and cones in our retinas then convert this light into electrical signals that are sent to our brains for processing.",{"type":211,"children":392},[393,397,405],{"type":214,"tag":215,"props":394,"children":395},{},[396],{"type":219,"value":390},{"type":214,"tag":215,"props":398,"children":399},{},[400],{"type":214,"tag":229,"props":401,"children":404},{"alt":231,"src":402,"title":403},"image://47dca1a2-e824-4a5e-b78b-c5d048463191","A 3D printing machine. Image: ESA, CC BY-SA IGO 3.0, CC BY-SA 3.0 IGO, via Wikimedia Commons",[],{"type":214,"tag":215,"props":406,"children":407},{},[408],{"type":219,"value":409},"Visible light has many applications in modern technology such as visible lasers, barcode scanners, CD/DVD players and 3D printing machines.",{"title":208,"searchDepth":25,"depth":25,"links":411},[],{"id":156,"data":157,"type":20,"maxContentLevel":19,"version":20,"reviews":160,"parsed":413},{"data":414,"body":415,"toc":440},{"title":208,"description":208},{"type":211,"children":416},[417,425,430,435],{"type":214,"tag":215,"props":418,"children":419},{},[420],{"type":214,"tag":229,"props":421,"children":424},{"alt":231,"src":422,"title":423},"image://699567ad-260e-45d3-8cb4-c5fc1d90cf95","Someone standing in the sun",[],{"type":214,"tag":215,"props":426,"children":427},{},[428],{"type":219,"value":429},"Ultraviolet radiation is a type of electromagnetic radiation generally considered to have wavelengths ranging from 100 nanometers to 400 nanometers. It is divided into three categories: UVA, UVB and UVC. UVA has the longest wavelength and lowest energy, while UVC has the shortest wavelength and highest energy.",{"type":214,"tag":215,"props":431,"children":432},{},[433],{"type":219,"value":434},"The sun is one of the most common sources of ultraviolet radiation, emitting both UVA and UVB rays which can cause skin damage such as sunburns or even skin cancer if exposed for too long without protection. Other sources include black lights used in nightclubs, welding arcs, tanning beds and germicidal lamps used to sterilize objects by killing bacteria on their surfaces.",{"type":214,"tag":215,"props":436,"children":437},{},[438],{"type":219,"value":439},"Ultraviolet radiation can also be used for beneficial purposes such as creating fluorescent effects in paints or fabrics that glow under certain lighting conditions. Additionally, it can be used to sterilize medical instruments by breaking down DNA molecules within microorganisms so they cannot reproduce anymore. This process is known as ultraviolet germicidal irradiation (UVGI).",{"title":208,"searchDepth":25,"depth":25,"links":441},[],{"id":173,"data":174,"type":20,"maxContentLevel":19,"version":20,"reviews":178,"parsed":443},{"data":444,"body":446,"toc":470},{"title":208,"description":445},"X-rays are a type of electromagnetic radiation with wavelengths ranging from 0.01 nanometers to 10 nanometers, making them shorter than ultraviolet and visible light but longer than gamma rays. X-rays can be divided into two categories: soft x-rays (wavelengths between 0.1 and 10 nm) and hard x-rays (wavelengths between 0.2 and 0.01 nm).",{"type":211,"children":447},[448,452,460,465],{"type":214,"tag":215,"props":449,"children":450},{},[451],{"type":219,"value":445},{"type":214,"tag":215,"props":453,"children":454},{},[455],{"type":214,"tag":229,"props":456,"children":459},{"alt":231,"src":457,"title":458},"image://cb81e9d7-0235-4981-bb30-71d2cdcea0bb","An X-ray machine. Image: Nick Smith photography, CC BY-SA 3.0, via Wikimedia Commons",[],{"type":214,"tag":215,"props":461,"children":462},{},[463],{"type":219,"value":464},"Soft x-rays have lower energy levels than hard x-rays. Because of their penetrating ability, hard x-rays can be used to see inside objects which are otherwise opaque. X-ray machines used in hospitals use both types of radiation depending on the application required; for example, mammograms require low energy soft x-ray beams while high energy hard x-ray beams can be used to look for fractures in bones.",{"type":214,"tag":215,"props":466,"children":467},{},[468],{"type":219,"value":469},"Most forms of X–ray cannot penetrate Earth's atmosphere due to its protective ozone layer which absorbs most incoming radiation before it reaches the surface; however some cosmic ray particles do make it through this barrier and can cause damage if exposed for too long without protection.",{"title":208,"searchDepth":25,"depth":25,"links":471},[],{"id":190,"data":191,"type":20,"maxContentLevel":19,"version":20,"reviews":194,"parsed":473},{"data":474,"body":476,"toc":487},{"title":208,"description":475},"Gamma rays are a form of electromagnetic radiation, with wavelengths under 10 picometers (pm). This is incredibly short - a picometer is a trillionth of a meter. They have the highest frequency and energy of all forms of light, and can penetrate through most materials more easily than X-rays. Gamma rays are produced by the most extremely energetic objects in the universe - including neutron stars and supernova explosions. They are also produced during nuclear reactions such as those in radioactive decay or in nuclear explosions.",{"type":211,"children":477},[478,482],{"type":214,"tag":215,"props":479,"children":480},{},[481],{"type":219,"value":475},{"type":214,"tag":215,"props":483,"children":484},{},[485],{"type":219,"value":486},"Unfortunately, gamma rays are also highly dangerous for living organisms due to their ability to ionize atoms and molecules they come into contact with. This can damage DNA and tissues within bodies. Fortunately, most gamma rays do not penetrate Earth's atmosphere - it acts as a shield against them, protecting us from their potentially harmful effects on our bodies. Exposure to large doses of gamma radiation can cause radiation sickness and severe damage including cell death, genetic mutations and cancerous growths. Even small amounts can lead to increased risk of developing certain types of cancers later in life.",{"title":208,"searchDepth":25,"depth":25,"links":488},[],{"left":4,"top":4,"width":490,"height":490,"rotate":4,"vFlip":6,"hFlip":6,"body":491},24,"\u003Cpath fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"2\" d=\"m9 18l6-6l-6-6\"/>",{"left":4,"top":4,"width":490,"height":490,"rotate":4,"vFlip":6,"hFlip":6,"body":493},"\u003Cpath fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"2\" d=\"M4 5h16M4 12h16M4 19h16\"/>",1778179410021]