Science 10 Q2 Mod2 Practical Applications and Effects of EM Waves 2020 PDF

lOMoARcPSD|28207961 Science 10 Q2 Mod2 Practical Applications And Effects Of EMWaves V4 Philippine Literature (University of San Agustin) Scan to open on Studocu Studocu is not sponsored or endorsed by any college or university Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 10 Science Quarter 2 – Module 2: Practical Applications and Effects of Electromagnetic Waves Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 Science – Grade 10 Alternative Delivery Mode Quarter 2 – Module 2: Practical Applications and Effects of Electromagnetic Waves First Edition, 2020 Republic Act 8293, section 176 states that: No copyright shall subsist in any work of the Government of the Philippines. However, prior approval of the government agency or office wherein the work is created shall be necessary for exploitation of such work for profit. Such agency or office may, among other things, impose as a condition the payment of royalties. Borrowed materials (i.e., songs, stories, poems, pictures, photos, brand names, trademarks, etc.) included in this module are owned by their respective copyright holders. Every effort has been exerted to locate and seek permission to use these materials from their respective copyright owners. The publisher and authors do not represent nor claim ownership over them. Published by the Department of Education Secretary: Leonor Magtolis Briones Undersecretary: Diosdado M. San Antonio Development Team of the Module Writer: Cecilia D. Macaranas Editors: Ma. Maila C. Justo Emily P. Tandog Reviewers: Jaime Campos, Jr. Jerry R. Junio Elnora Raroque Rodrigo Q. Reyes, Jr. Ellen F. Fernandez German J. Ferrer Jr. Ma. Criselda G. Ocang Gina A. Amoyen Illustrator: Richard C. Paragas Layout Artist: Reyna H. Talinio Management Team: Tolentino G. Aquino Arlene A. Niro Carmina C. Gutierrez Gina A. Amoyen Rustico P. Abalos, Jr. Editha T. Giron Marilou D. Roldan Jerry R. Junio Printed in the Philippines by ________________________ Department of Education – Region I Office Address: Flores St., Catbangen, City of San Fernando, La Union Telefax: (072) 682-2324; (072) 607-8137 E-mail Address: [email protected] Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 10 Science Quarter 2 – Module 2: Practical Applications and Effects of Electromagnetic Waves Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 Introductory Message This Self-Learning Module (SLM) is prepared so that you, our dear learners, can continue your studies and learn while at home. Activities, questions, directions, exercises, and discussions are carefully stated for you to understand each lesson. Each SLM is composed of different parts. Each part shall guide you step-by-step as you discover and understand the lesson prepared for you. Pre-tests are provided to measure your prior knowledge on lessons in each SLM. This will tell you if you need to proceed on completing this module or if you need to ask your facilitator or your teacher’s assistance for better understanding of the lesson. At the end of each module, you need to answer the post-test to self-check your learning. Answer keys are provided for each activity and test. We trust that you will be honest in using these. In addition to the material in the main text, Notes to the Teacher are also provided to our facilitators and parents for strategies and reminders on how they can best help you on your home-based learning. Please use this module with care. Do not put unnecessary marks on any part of this SLM. Use a separate sheet of paper in answering the exercises and tests. And read the instructions carefully before performing each task. If you have any questions in using this SLM or any difficulty in answering the tasks in this module, do not hesitate to consult your teacher or facilitator. Thank you. ii Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 What I Need to Know Are you not wondering how you are able to communicate with your loved ones from far places? How were you able to listen to music from your radio? Or how your television remote control works? Most of the things we use nowadays are applications of our knowledge about Electromagnetic (EM) waves. We may not see these EM waves, but we encounter their different forms in our daily life. You know more of these waves than you may think. This module contains various activities and tasks to be accomplished which will give you more understanding on the significance and effects of electromagnetic waves. At the end of this module you will be able to: 1. cite examples of practical applications of the different regions of EM waves, such as the use of radio waves in telecommunication (S10FE-IIc- d-48); 2. explain the effects of electromagnetic radiation on living things and the environment (S10FE-IIe-f-49). What I Know Directions: Read each question carefully. Choose the letter of the correct answer. 1. What EM wave make cellular telephones transmit and receive signals? A. radio waves C. visible light B. microwaves D. gamma rays 2. All of the following are uses of visible light. Which one is not? A. it enables us to see things C. for thermal imaging B. gives light to the screen of our devices D. used in optical fibers 3. Which kind of wave is use in night vision goggles? A. microwave C. gamma ray B. infrared D. visible light 4. Which of the following EM wave makes use of artificial lighting? A. visible spectrum C. gamma rays B. x-ray D. infrared 1 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 5. Which of the following is a use of ultraviolet radiation? A. diagnosing bone fracture C. night vision goggle B. identifying original from fake banknotes D. optical fiber 6. Which type of X-ray can penetrate even through metals? A. regular X-ray C. short wavelength X-ray B. long wavelength X-ray D. dental X-ray 7. What type of electromagnetic waves is used in RADAR? A. infrared rays C. radio waves B. microwaves D. ultraviolet rays 8. What imaging technique uses powerful magnets, computer and radio waves to make detailed pictures inside your body? A. thermal imaging C. Magnetic Resonance Imaging (MRI) B. infrared imaging D. X-ray image 9. In an infrared camera, what color indicates warmer temperature? A. blue C. violet B. green D. yellow 10. Which of the EM waves below are emitted by stars and some radioactive substances? A. gamma rays C. microwave B. radio waves D. X-ray 11. Which kind of wave causes the fluorescent chemicals to glow in sunlight? A. microwave C. gamma ray B. ultraviolet D. visible light 12. How many of the EM waves are visible? A. none out of seven EM waves C. all of the EM waves B. most of it D. only one out of seven EM waves 13. Among the following forms of the EM spectrum, which waves do not have enough energies to damage the body cells? A. gamma ray and infrared C. gamma ray and ultraviolet B. radio wave and visible light D. X-ray and ultraviolet 14. What kind of wave is very dangerous, but have been used to kill cancer cells? A. gamma rays C. radio waves B. infrared D. visible light 15. Which of the following sets of EM radiation can harm your body cells? A. gamma ray, ultraviolet ray, X-ray C. infrared, microwaves, ultraviolet B. light, ultraviolet, X-ray D. gamma ray, microwaves, infrared 2 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 Lesson Practical Applications and Effects of Electromagnetic 1 Waves What’s In Can you still remember the different forms of Electromagnetic waves you have learned from the previous module? While all these EM waves move through space at the same speed of about three hundred (300) million meters per second, their wavelengths, frequencies, and energies differ. This is the reason why they are arranged accordingly in a scheme called Electromagnetic Spectrum. Let me remind you that wavelength has an inverse relation with frequency and energy. So, if wavelength increases, what will happen to the frequency of the wave? If the wavelength of an EM wave decreases, what will be the effect in its energy? Let’s compare the relative wavelengths, frequencies, and energies of the different regions of the Electromagnetic spectrum. Directions: On a separate sheet, answer the following activity. Look at the picture below, write the name of the correct Electromagnetic wave corresponding to the letters on the picture. You may refer your answer for numbers 1-7 from the box. x-ray radio wave 1. A ______________________ 2. B ______________________ 3. C ______________________ gamma ray microwave 4. D ______________________ 5. E ______________________ 6. F ______________________ ultraviolet infrared visible light 7. G ______________________ 8. What letter shows the lowest frequency? ______________________ 9. What letter shows the shortest wavelength? ______________________ 10. What letter shows the EM wave with the highest energy?__________________ 3 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 Notes to the Teacher The students should have mastery of the properties of electromagnetic waves for them to relate the forms to the uses. What’s New Directions: Look for the name of devices hidden in the puzzle below. The words may be placed vertically, horizontally, diagonally, or even backwards. Write ten (10) terms you found in the word box below. Generated from Free Word Search Puzzle Maker What do you think are these devices for? What form of EM waves make them work? 4 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 What is It Study the tables below. Electromagnetic waves have practical applications which depend greatly on their wavelength, frequency, and energy. Continue reading and you will know more about them. Electromagnetic Practical Applications Waves Radio Waves  Radio/Television signals Radio and television signals are radio waves that are produced by making electrons vibrate. It has a long wavelength capable to transmit sound and picture information over long distances.  Global Positioning System (GPS) is a space-based navigation system that provides geographical position and time information anywhere on or near the earth. It communicates with stations on the ground using radio waves.  Magnetic Resonance Imaging (MRI) It is a medical imaging technique that uses powerful magnets, computer and radio waves to make detailed pictures inside your body. Electromagnetic Practical Applications Waves Microwaves  Satellite communication Microwaves are used in satellite communications because it can penetrate the earth’s atmosphere. Microwave’s signals are transmitted by an antenna to a satellite which amplifies and retransmits the signal to an antenna in other parts of the world. This is how we communicate even from afar.  Terrestrial communication A cell phone is a radio transmitter and receiver that uses microwaves. Cellular phones depend on overlapping network of cells. Each cell has its tower that receives and sends microwave signals.  Cooking The microwaves in a microwave oven penetrate and agitate the water molecules within the food. Thus, they create molecular friction which produces heat that will cook the food. 5 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961  RADAR (Radio Detection and Ranging) is a detection system used to determine the range, angle or velocity of objects. It can be used to detect aircraft, ships, and the like. Electromagnetic Practical Applications Waves Infrared (IR) Remote control (IR remote) uses LED lights to transmit signals to control devices. It emits pulses of invisible infrared light. Thermal imaging through infrared scanners Infrared scanner such as thermal imaging and thermal scanner are used to show the temperature variation of the body. Our body radiates infrared and under infrared cameras, our images appear in a variety of colors. The differences in color determine the differences in temperature. For example, shades of blue and green indicate regions of colder temperature; and red and yellow indicate warmer temperature. Night vision goggles use thermal imaging technology to capture the infrared light being emitted as heat by objects in the field of view. Electromagnetic Practical Applications Waves Visible Light  Enables us to see things around us. It also gives light to the screen of most electronic devices.  Artificial Lights like flashlight, lamp etc. are any light source that produce light instead of natural lights produced by the sun.  Optical fibers One use of optical fibers in medicine is endoscope, a flexible tube with tiny camera that is used to observe the internal parts of the body. 6 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 Electromagnetic Practical Applications Waves  Ultraviolet B (UVB) radiation in sunlight interact with a protein (7-DHC) in the skin, converting it into vitamin D3, the active form of vitamin D, which is essential for Ultraviolet (UV) maintaining healthy bones and teeth.  Security markings Sensitive documents such as credit cards, banknotes, and passports include a UV watermark that is only seen under UV emitting light.  Sterilization of water in drinking fountains Ultraviolet light disinfection is one water treatment system that can be used to remove most forms of microbiological contamination from water.  Fluorescence  Some washing powder contains fluorescent chemicals which glow in sunlight. This makes your shirt look whiter than white in daylight. Electromagnetic Practical Applications Waves  Diagnosing bone fractures X-ray X-rays are produced using an X-ray tube. They are emitted when fast moving electrons hit a metal target. Long wavelength X-rays can penetrate the flesh but not the bones that’s why it is used in diagnosing bone fractures.  Airport security scanner The short wavelength X-rays can penetrate through metals which can be used in airport security scanner. 7 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 Electromagnetic Practical Applications Waves Gamma Ray  Treat tumors and cancer through the process called radiotherapy. The high-energy rays of gamma destroys cancer cells in the area where it is given. Gamma rays sterilize surgical instruments because they easily penetrate through materials and the energy they release kills bacteria and other microorganisms. Effects of Electromagnetic (EM) radiation on living things and the environment From the practical applications of EM waves discussed above, we can conclude that these waves are significant to us. But, even essential forms of radiations can be harmful in excessive amount. The effect of EM radiation on organisms and environment depends on how much energy it carries. Radiation can be non-ionizing and ionizing. Non-ionizing radiation does not have enough energy to remove electrons from atoms and molecules. Radio waves, microwaves, infrared, visible light and ultraviolet are non- ionizing radiation. We are exposed to low levels of non-ionizing radiation every day. When the exposure is intense and direct, it may result in damage to tissue due to heat. Right amount of non-ionizing radiation like UV rays maintain the proper mechanism of ecosystem. High-energy EM waves like x-rays and gamma rays are considered as ionizing radiation. Like the non-ionizing radiation, we are also exposed to low levels of ionizing radiation that comes from the atmosphere. This means that the usual amount of ionizing radiation from natural sources absorbed by our bodies is small. Our main exposure to ionizing radiation comes from manmade sources through the use of diagnostic medical exams. Excessive exposure to these radiations can alter molecules within the cells and may cause eventual harm such as skin or tissue damage, cancer and death. When handled improperly, radioactive pollution may occur, where the air, soil and water will be contaminated. This pollution may eventually makes its way up to the food chain where all forms of life may be affected. 8 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 What’s More Here are some activities which will give you hands-on experience on some of the common EM waves mentioned above. Each activity needs simple materials that are readily available at your home or school. Activity 1: “Behind the White Light” Adapted from https://www.physicscentral.com/experiment/physicsathome/rainbow.cfm What you need: ▪ water ▪ sunlight or flashlight ▪ shallow pan ▪ small mirror ▪ piece of paper or white surface What to do: 1. Before doing this activity, read the guide questions below. 2. Fill the shallow pan with water of about half full. 3. Put the mirror into the water inside the pan at an angle. 4. Position the pan so that sunlight/flashlight shines directly where the mirror is under water. You may have to shift the mirror to find the right angle. 5. Hold the white paper above the mirror. It would be easier to see if the room is dark. 6. Adjust the angle of the mirror until you see a rainbow. Observe. Guide Questions: Answer the following activity questions on a separate sheet. A. Prism is a triangular piece of glass that is used to separate white light. From the activity above, which materials served as a prism? _________________________________________ B. Explain why white light splits up into different colors when it goes through a prism? ___________________________________________________________________________ C. Write down the color spectrum you observed in proper order from top to bottom. ___________________________________________________________________________ 9 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 D. What color bends the least? __________________________________________________________________ E. What color bends the most? __________________________________________________________________ Assessment 1 Directions: Unscramble the letters to form the correct words and write the appropriate word to complete the statements below on a separate sheet. 1. EM wave that can be seen by human eye is the _____. ISVIELB HGLIT 2. _______ is the only source of natural white light. UNS 3. Rainbow is formed when light _______ at different angles. FRRETACS 4. _______ is one of the artificial lights we use at night. LBUB 5. In a rainbow, the color that bends the most is ______. IVLTOE Activity 2: “Block it!” Adapted from https://homeschoolgameschool.com/the-great-sunscreen-experiment/ What you Need: ▪ bright-colored construction paper ▪ sunblock lotion ▪ sunglass What to Do: 1. Before doing this activity, read the guide questions below. 2. Divide the construction paper by folding it into three. 3. Apply sunblock lotion on one side of the paper, place the sunglass on the other side. Leave the center of the construction paper uncovered. 4. Place the paper in a sunny spot and leave it there for three hours. 5. Observe the paper. Guide Questions: Answer the following activity questions on a separate sheet. A. Did the paper’s color change or stay the same? ___________________________ B. How is the side of the construction paper with sunblock lotion different from the side without sunblock lotion? _________________________ 10 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 C. How is the side of the construction paper with sunglass different from the side without sunglass? __________________________________________________________________________ D. Describe how sunscreen and sunglass protect us from UV radiation. __________________________________________________________________________ Assessment 2 Directions: Write ULTRA if the statement is correct, and VIOLET if not. If the statement is incorrect, state reason or appropriately correct the statement. _________ 1. Too much exposure to UV rays may increase the risk for skin cancer and cataracts. _________ 2. Sunscreens protect our skin so we can stay under the sun all day. _________ 3. The higher the Sun Protection Factor (SPF) in a sunscreen, the higher the protection. _________4. Sunglasses have UV coating that help block harmful rays from the sun. _________5. It is good to avoid the sun entirely. Activity 3: Post the Risk Directions: Using a letter-size bond paper, make a poster on the risks of long exposure to the different forms of Electromagnetic waves in living things. The rubric below will be used to grade your work. RUBRIC 1 - Weak 2 - Moderately Weak 3 - Average 4 - Moderately Strong 5 - Strong 1. The poster contains appropriate items and information. 2. The poster is clean and neat, and the information on it is well organized. 3. The poster is colorful and creative. 4. Any artwork on the poster is appropriate and carefully executed. 5. The poster shows an understanding of the topic and related concepts. Total: 11 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 Assessment 3 Directions: Write the effect of the given EM waves on living things and environment when exposed in large amount. Do it on a separate sheet of paper. X-rays UV rays ___________________ ____________________ ___________________ Organism ____________________ UV rays Environment Gamma rays ___________________ ____________________ ___________________ ____________________ What I Have Learned Let’s sum up what you have learned. Choose the correct term from the enclosed choices that should go into the blank spaces. Radio/television signals, GPS and MRI are practical applications of (1) __________________ (radio wave/microwave). Satellite communication, cooking, terrestrial communication, and RADAR make use of (2) ________________ (infrared/microwave). Remote controls, thermal imaging and night vision goggles are practical applications of (3) ________________ (infrared/ultraviolet). You can see things around you because of (4) __________________ (gamma rays/visible light) which is also used in optical fibers, artificial lights and screens of electronic devices. Vitamin D is produced from (5) ______________ (ultraviolet /microwave), which is also used for security markings and sterilization of water in drinking fountains. In diagnosing bone fractures, we use (6) ______________________ (gamma rays/X-rays). (7) __________________ (long wavelength X-ray)/short wavelength X-ray)) is a type of x-ray that can penetrate the flesh while (8) __________________ (long wavelength X- ray)/short wavelength X-ray)) can penetrate through metals. Treating tumors and cancer through the process called radiotherapy and sterilizing medical equipment are practical applications of (9) _______________ (gamma rays/ultraviolet). The effect of Electromagnetic waves on organisms and environment depends on how much (10) ______________ (wavelength, energy) it carries. 12 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 What I Can Do A. On another sheet, copy the table below and for a day, list down your exposure to the different forms of electromagnetic waves. Write the time duration of exposure and your activity. Then identify the form of EM wave involved and the source of that wave. An example was given as your guide. Form of EM Time Activity Source wave Example: 9:00 AM – 10: 00 AM I watch my favorite TV show. Radio wave Television Assessment Directions: Read each question carefully. Choose the letter of the correct answer. 1. Which pair of EM waves is commonly used for communication? A. X-rays and infrared C. radio waves and gamma rays B. radio waves and microwaves D. infrared and microwaves 2. Radio wave is useful in which of the following applications? A. watching television C. sterilizing medical equipment B. treating cancers D. sunbathing 3. All of the following made use of gamma rays except one. Which is it? A. treating tumors B. treating cancer through the process called radiotherapy C. sterilization of water in drinking fountains D. sterilization of medical equipment 4. Infrared waves is useful in which of the following applications? A. remote control C. screen of electronic devices B. television signal D. night vision goggles 13 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 5. Microwave is useful in which of the following applications? A. remote control C. artificial lighting B. cellphone communication D. sterilization 6. In visible light, which color has the longest wavelength? A. red C. yellow B. violet D. green 7. What form of wave makes your skin tan when exposed for a long period of time? A. infrared rays C. radio waves B. microwaves D. ultraviolet rays 8. Which of the following is not an application of visible light? A. bulb C. cell phone screen B. security markings D. flashlight 9. Which of the following is the correct meaning of the acronym GPS? A. Guided Position Symbol C. Guided Positioning System B. Global Positioning System D. Global Perimeter Scale 10. Colors in the infrared image depend on ________________. A. wavelength C. amplitude B. frequency D. temperature 11. Which of the devices below can be used to detect aircrafts and ships? A. RADAR C. GPS B. MRI D. communication tower 12. What device uses thermal imaging technology to capture the light being emitted as heat by objects in the field of view? A. infrared camera C. fluorescent B. remote control D. night vision goggles 13. Which of the EM waves below is used to remove most forms of microbiological contamination from water? A. infrared rays C. radio waves B. microwaves D. ultraviolet rays 14. All of the following are dangerous waves when taken by the body in large amounts except one. Which is it? A. radio waves C. ultraviolet B. gamma rays D. x-rays 15. How does the energy level changes from gamma ray to radio wave? A. increases C. cannot be determined B. decreases D. energy level does not change 14 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 Additional Activities A. Directions: The following are electromagnetic waves with their applications. On another sheet, write the name of the device which does not belong to the group. 1. Radio Waves GPS MRI RADAR 2. Microwaves Night vision Satellite Cooking goggles 3. Visible spectrum Artificial lights Diagnosing bone Optical Fibers fracture 4. Ultraviolet (UV) Fluorescence Cellphone signal Sterilization of water in drinking fountain 5. Gamma rays Radiotherapy Sterilization of Radio medical tools B. Directions: Complete the table below by choosing what matches to the types of radiation with its use and its effect on living things. Use another sheet for this activity. Used for Communication Creating Seeing Remote MRI, GPS images of the Optical fibers controls and inside of the Artificial thermal body lightings imaging Effects on living things Activates Causes burning sensitive cells in High doses can High doses can of tissues. the retina. kill living cells. kill living cells. Probably None 15 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 Forms of EM Wave Used for Effects on living things Gamma Treating tumors High doses can kill living Sterilizing medical tools cells. Lower doses can cause cancer in cells X-ray Vitamin D UV Security marking Visible light Infrared Satellite Heating of water in tissues Microwave communication. can cause burning Cooking, RADAR Radio C. Directions: Using the given clues, fill in the crossword puzzle with the correct words. Write your answer in a separate sheet of paper. *Generated from Free Crossword Puzzle Maker 16 Downloaded by Jona C. Balmatero ([email protected]) Downloaded by Jona C. Balmatero ([email protected]) 17 What I know C. Red-Orange-Yellow-Green- 3. C 1. B Blue-Indigo- Violet 4. A 2. C D. Red 5. B 3. B E. Violet 6. A 4. A Assessment 1 7. D 5. B 1. visible light 8. B 6. C 2. sun 9. B 7. B 3. refracts 10. D 8. C 4. bulb 11.C 9. D 5. Violet 12. A 10. A Activity 2 13. D 11. B A. The color changes 14. A 12. D B. Answers may vary 15. B 13. B C. Answers may vary Additional Activities 14. A D. Answers may vary A. 15. A Assessment 2 1. RADAR What’s in 1. ULTRA 2. night vision goggles 1. Radio wave 2. VIOLET, We need to reapply 3. diagnosing bone fracture 2. Microwave sunscreen every 1 and half to 2 4. cellphone signal 3. Infrared hours 5. radio 4. Visible Light 3. ULTRA B. 5. Ultraviolet 4. ULTRA X-ray - Creating images of 6. X-ray 5. VIOLET, Our body needs the inside of the body - High 7. Gamma rays vitamin D that comes from the doses can kill living cells. 8. A sun Lower doses can cause 9. G Assessment 3 cancer. 10. G UV rays can cause sun UV - High doses can kill What’s New burn/damage tissue on living cells. Lower doses Word Box organism. Excessive sun rays can cause cancer.  cellphone may cause global warming and Visible light – Seeing,  radio drought to the environment. optical fibers & artificial  television lightings – activates  RADAR Excessive amount of x-ray can sensitive cells in the retina  microwave oven cause cancer. Infrared - Remote controls  remote control Gamma rays may result to and thermal imaging -  camera radiactive pollution. causes burning of tissues What I Have Learned Radio - communication  X-ray 1. radio wave MRI, GPS, probable none  bulb 2. microwave C.  flashlight Across  satellite 3. infrared 1. sterilization What’s New 4. visible light 4. cancer Activity 1 5. ultraviolet 6. short A. Water 6. X-rays 7. temperature B. As white light 7. long wavelength 8. microwave passes through Down prism, its 8. short wavelength 9. gamma rays 2. xray components 3. radar bend(refract) into 10. energy 5. ultraviolet different angles Assessment 9. global causing the light 1. A 10. MRI to separate. 2. A Answer Key lOMoARcPSD|28207961 lOMoARcPSD|28207961 References A. Book Government of the Philippines, Department of Education. 2015. Grade 10 Learner’s Material. Manila. B. Electronic Sources Centers for Disease Control and Prevention. https://www.cdc.gov/nceh/radiation/nonionizing_radiation.html https://www.iop.org/education/ltp/events/file_65938.pdf International Atomic Energy Agency. https://www.iaea.org/Publications/Factsheets/English/radlife Just Science. http://www.justscience.in/articles/applications-of-electromagnetic- waves/2017/05/25 Physics in the Living Room. https://www.physicscentral.com/experiment/physicsathome/remote.cfm Revision World. https://revisionworld.com/gcse-revision/physics/waves/uses- electromagnetic-waves Rookie Parenting Science. https://www.rookieparenting.com/make-your-own- rainbow-science-experiment/ 18 Downloaded by Jona C. Balmatero ([email protected]) lOMoARcPSD|28207961 For inquiries or feedback, please write or call: Department of Education - Bureau of Learning Resources (DepEd-BLR) Ground Floor, Bonifacio Bldg., DepEd Complex Meralco Avenue, Pasig City, Philippines 1600 Telefax: (632) 8634-1072; 8634-1054; 8631-4985 Email Address: [email protected] * [email protected] Downloaded by Jona C. Balmatero ([email protected])

Science 10 Q2 Mod2 Practical Applications and Effects of EM Waves 2020 PDF

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