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Electromagnetic waves are produced by

Water waves produced by a motorboat sailing in water are An electron - positron pair is produced when a γ-ray photon of energy 2.36 MeV passed close When fluids are heated from the bottom, convection currents are produced because An emf is produced in a coil, which is not connected to an external voltage source An accelerating charged particle produces an electromagnetic (EM) wave. Electromagnetic waves are electric and magnetic fields traveling through empty space with the speed of light c. A charged particle oscillating about an equilibrium position is an accelerating charged particle Electromagnetic waves are the combination of electric and magnetic field waves produced by moving charges. The creation of all electromagnetic waves begins with a charged particle. This charged particle creates an electric field (which can exert a force on other nearby charged particles)

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  1. An electromagnetic wave is defined as an energy wave that has a velocity in vacuum that coincides with the velocity of light in vacuum. According to this definition, gamma rays, X-rays, ultraviolet rays, visible light rays, infra red rays, radio waves, and gravitational waves are known electromagnetic waves
  2. The electromagnetic spectrum includes the complete range of electromagnetic waves placed in order of... increasing frequency A thermogram is an image produced by a special camera that, instead of visible light, records..
  3. An atom is a centralized region of extreme density and positive charge (the nucleus), surrounded by a region of standing 'probability waves' which describe the wave function of the electron. In..
  4. Power lines, electrical wiring, and appliances that work on alternating current - all produce electric and magnetic fields. The electromagnetic spectrum covers an enormous range of frequencies. Frequencies below 3 KHz are classified as extremely-low-frequency range, and electric power runs at 50 Hz - except in North America where it is 60 Hz

In this video we will discuss how electromagnetic waves are originated or generates....production of electromagnetic waves The accelerating charge in the ac currents of electrical power lines produce electromagnetic waves in this range. ELF waves are able to penetrate sea water, which strongly absorbs electromagnetic waves of higher frequency, and therefore are useful for submarine communications Electromagnetic waves are the combination of electric and magnetic field waves produced by moving charges

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NEET Physics Electromagnetic Waves Multiple Choice Questions make you feel confident in answering the question in the exam & increases your scores to high. MCQ on Electromagnetic Waves. 1. Electromagnetic waves are produced by (a) A static charge (b) An accelerated charge (c) A moving charge (d) Charged particles. Answer Electromagnetic radiation is made when an atom absorbs energy. The absorbed energy causes one or more electrons to change their locale within the atom. When the electron returns to its original position, an electromagnetic wave is produced. Depending on the kind of atom and the amount of energy, this electromagnetic radiation can take the form. the waves we've discussed so far carry energy but not momentum. Electromagnetic waves carry both.1 In Section 8.6 we discuss polarization, which deals with the relative phases of the difierent components of the electric (and magnetic) fleld. In Section 8.7 we show how an electromagnetic wave can be produced by an oscillating (and hence.

The magnetic field lines also propagate away from the antenna at the speed of light, forming the other part of the electromagnetic wave, as seen in Figure 24.6 (b). The magnetic part of the wave has the same period and wavelength as the electric part, since they are both produced by the same movement and separation of charges in the antenna Microwaves are the highest-frequency electromagnetic waves that can be produced by currents in macroscopic circuits and devices. Microwave frequencies range from about to the highest practical resonance at nearly Electromagnetic radiation or electromagnetic waves are created due to periodic change of electric or magnetic field. Depending on how this periodic change occurs and the power generated, different wavelengths of electromagnetic spectrum are produced. In a vacuum, electromagnetic waves travel at the speed of light, commonly denoted c • List and explain the different methods by which electromagnetic waves are produced across the spectrum. 24.4.Energy in Electromagnetic Waves • Explain how the energy and amplitude of an electromagnetic wave are related. • Given its power output and the heating area, calculate the intensity of a microwave oven's electromagnetic field. Thus oscillating electric fields and magnetic fields regenerate each other, and an electromagnetic wave propagates in the space. (b) In microwave oven, the frequency of the microwaves is selected to match the resonant frequency of water molecules so that energy from the waves get transferred efficiently to the kinetic energy of the molecules

Changes in atoms and their nuclei can cause electromagnetic waves to be generated or absorbed. Gamma rays are produced by changes in the nucleus of an atom. They are a form of nuclear radiation... These EMFs are in the ionizing radiation part of the electromagnetic spectrum and can damage DNA or cells directly. Low- to mid-frequency EMFs, which include static fields (electric or magnetic fields that do not vary with time), magnetic fields from electric power lines and appliances, radio waves, microwaves, infrared radiation, and visible.

The electric and magnetic fields produced by a long straight wire antenna are exactly in phase. Note that they are perpendicular to one another and to the direction of propagation, making this a transverse wave. Figure 3. A part of the electromagnetic wave sent out from the antenna at one instant in time. The electric and magnetic fields ( E. Electromagnetic waves are produced whenever electric charges are accelerated. This makes it possible to produce electromagnetic waves by letting an alternating current flow through a wire, an antenna. The frequency of the waves created in this way equals the frequency of the alternating current Electromagnetic waves led to radio and television, and to a huge electronic industry. But they are also generated in space--by unstable electron beams in the magnetosphere, as well as at the Sun and in the far-away universe, telling us about energetic particles in distant space, or else teasing us with unresolved mysteries

We can get a good understanding of electromagnetic waves (EM) by considering how they are produced. Whenever a current varies, associated electric and magnetic fields vary, moving out from the source like waves. Perhaps the easiest situation to visualize is a varying current in a long straight wire, produced by an AC generator at its center, as. Explanation: An electromagnetic wave can be created by accelerating charges; moving charges back and forth will produce oscillating electric and magnetic fields, and these travel at the speed of light. kaypeeoh72z and 6 more users found this answer helpful. heart outlined. Thanks 1. star (a) Electromagnetic waves are transverse (b) Electromagnetic waves travel with the speed of light in free space (c) Electromagnetic waves are produced by accelerating charges (d) Electromagnetic waves travel with the same speed in all media. Answer. Answer: (d) Electromagnetic waves travel with the same speed in all medi A.) an electromagnetic waves occur when electric and magnetic fields vibrate at right angles to each other B.) a magnetic field is surrounded by and electric current C.) changing electric and magnetic fields regenerate each other D.) electromagnetic waves are produced when an electric charge vibrate

Radio and TV Waves. The broad category of radio waves is defined to contain any electromagnetic wave produced by currents in wires and circuits. Its name derives from their most common use as a carrier of audio information (i.e., radio). The name is applied to electromagnetic waves of similar frequencies regardless of source Yes! Power lines, electrical wiring, and appliances that work on alternating current - all produce electric and magnetic fields. The electromagnetic spectrum covers an enormous range of frequencies. Frequencies below 3 KHz are classified as e..

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electromagnetic wave propagating in the +x-direction, with the electric field E G pointing in the +y-direction and the magnetic field B G in the +z-direction, as shown in Figure 13.4.1 below. Figure 13.4.1 A plane electromagnetic wave What we have here is an example of a plane wave since at any instant bothE andB G Sources of electromagnetic waves. Accelerated charges radiate electromagnetic waves. An oscillating charge is an example of an accelerating charge. Electromagnetic waves are also produced when fast-moving electrons are suddenly stopped by a metallic surface of high atomic number. Electromagnetic waves properties. These waves do not require a.

* A charged particle produces an electric field. This electric field exerts a force on other charged particles. Positive charges accelerate in the direction of the field and negative charges accelerate in a direction opposite to the direction of. A. Electromagnetic Waves. Definition. While it sounds somewhat psychedelic, an electromagnetic wave (EMW) is, in the workings of physics, defined as a wave produced by the interaction of time-alternating electric and magnetic fields. Both electricity (your hair sticking straight up) and magnetism (a refrigerator magnet) can be static Electromagnetic radiation - Electromagnetic radiation - Microwaves: The microwave region extends from 1,000 to 300,000 MHz (or 30 cm to 1 mm wavelength). Although microwaves were first produced and studied in 1886 by Hertz, their practical application had to await the invention of suitable generators, such as the klystron and magnetron. Microwaves are the principal carriers of high-speed data. High voltages induced across the gap in the loop produced sparks that were visible evidence of the current in the circuit and helped generate electromagnetic waves. Across the laboratory, Hertz placed another loop attached to another RLC circuit, which could be tuned (as the dial on a radio) to the same resonant frequency as the first and could.

Electromagnetic waves. Electromagnetic radiation, is a form of energy emitted by moving charged particles. As it travels through space it behaves like a wave, and has an oscillating electric field component and an oscillating magnetic field. These waves oscillate perpendicularly to and in phase with one another tion for production of electromagnetic waves of low fre-quency. For this purpose we used a device previously designed by Benveniste and Coll (1996; 2003) for the detection of signals produced by isolated molecules en-dowed with biological activity. The principle of this technology is shown in Fig. 1 Light: Electromagnetic waves, the electromagnetic spectrum and photons Electromagnetic waves and the electromagnetic spectrum This is the currently selected item The electric and magnetic fields produced by a long straight wire antenna are exactly in phase. Note that they are perpendicular to one another and to the direction of propagation, making this a transverse wave. Figure 7.7 A part of the electromagnetic wave sent out from the antenna at one instant in time Definition: Electromagnetic waves or EM waves are waves that are created as a result of vibrations between an electric field and a magnetic field. In other words, EM waves are composed of oscillating magnetic and electric fields. Description: Electromagnetic waves are formed when an electric field comes in contact with a magnetic field. They are hence known as 'electromagnetic' waves

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The frequency of an electromagnetic wave produced by the oscillator is the same as that of a charged particle oscillating about its mean position i.e., Hz. 10. The amplitude of the magnetic field part of a harmonic electromagnetic wave in vacuum is = 510 nT Other electromagnetic waves include the microwaves you use to heat up leftovers for dinner, and the radio waves that are broadcast from radio stations. An electromagnetic wave can be created by accelerating charges; moving charges back and forth will produce oscillating electric and magnetic fields, and these travel at the speed of light Electromagnetic Radiation. Much of what is known about the structure of the electrons in an atom has been obtained by studying the interaction between matter and different forms of electromagnetic radiation. Electromagnetic radiation has some of the properties of both a particle and a wave. Particles have a definite mass and they occupy space Electromagnetic waves in medicine - X-rays and gamma rays Changes in atoms and their nuclei can cause electromagnetic waves to be generated or absorbed. Gamma rays are produced by changes in the.

Electric fields are produced by the local build-up of electric charges in the atmosphere associated with thunderstorms. The earth's magnetic field causes a compass needle to orient in a North-South direction and is used by birds and fish for navigation. Human-made sources of electromagnetic fields Electromagnetic waves are produced by the motion of electrically charged particles. These waves are also called electromagnetic radiation because they radiate from the electrically charged particles. They travel through empty space as well as through air and other substances. Scientists have observed that electromagnetic radiation has a dual. The waves produced by bats are called: (a) infrasonic waves (b) ultrasonic waves (c) electromagnetic waves (d) mechanical waves asked Oct 20, 2020 in Acoustics by Jaini ( 54.9k points) acoustic Electromagnetic waves (EM) are produced by A. A neutron accelerating from 50m/s to 90m/s B. An electron at rest. C. A proton at rest. D. An electron accelerating from 50m/s to 90m/s

Radiofrequency waves are electromagnetic fields, and unlike ionizing radiation such as X-rays or gamma rays, can neither break chemical bonds nor cause ionization in the human body. Exposure levels Mobile phones are low-powered radiofrequency transmitters, operating at frequencies between 450 and 2700 MHz with peak powers in the range of 0.1 to. Radio Waves. Used in FM and AM radio transmission and telecommunications. It's important to understand that the entire electromagnetic spectrum is indeed that - a spectrum. There is much overlap between many of these types of electromagnetic radiation. The radiation emitted by mobile phones falls somewhere in between microwaves and radio waves 34.Explain briefly how electromagnetic waves are produced by an oscillating charge? How is the frequency of the electromagnetic waves produced related to that of the oscillating charge? [Foreign 2012] Ans. 35.Name the constituent radiation of electromagnetic spectrum which is used for The wavelength of electromagnetic waves produced by this oscillator is (a) 1 m (b) 10 m (c) 100 m (d) 1000 m. 6. The electric and the magnetic field, associated with an electromagnetic wave, propagating along X axis can be represented by. Ans: (b) 7. In an electromagnetic wave in free space the rms value of the electric field is 3 V m −1. The. EM waves traveling in space without obstruction approximate the behavior of plane waves. Electromagnetic waves have an electric (E) field component and a magnetic (H) field component that oscillate in phase and in directions perpendicular to each other.The behavior of each quantity in a specified region in space is described by the wave equations that we will discuss later in this section

Which one of the following statements concerning electromagnetic waves is false? (a) Electromagnetic waves carry energy. (b) X-rays have longer wavelengths than radio waves. (c) In vacuum, all electromagnetic waves travel at the same speed. (d) Lower frequency electromagnetic waves can be produced by oscillating circuits Why doesn't Direct Current produce electromagnetic waves. So electric fields are produced due to presence of charged particles and magnetic fields are produced due to motion of charged particles. In DC circuits, a current-carrying wire involves the motion of electrons, which are charged particles, so both magnetic and electric fields are. Properties of electromagnetic waves: (i) Electromagnetic waves are produced by any accelerated charge. (ii) Electromagnetic waves do not require any medium for propagation. So electromagnetic wave is a non-mechanical wave. (iii) Electromagnetic waves are transverse in nature You might know that light can be described as a flow of particles called photons or/and as a wave depending on how you observe it. The wavelike description o.. Sound waves are mechanical waves whereas electromagnetic waves are not mechanical waves. Therefore, sound waves require a medium for their propagation whereas electromagnetic waves do not require a medium. This is the main difference between sound waves and electromagnetic waves. There are many other differences between these two

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The frequency of electromagnetic waves produced by a charged particle is equal to the frequency by which it oscillates about its mean equilibrium position. So, frequency of electromagnetic waves produced by the charged particle is v= 10 9 Hz. Question 12. The source of electromagnetic waves can be a charge An electromagnetic wave can be produced, when charge is (a) moving with a constant velocity (b) moving in a circular orbit (c) falling in an electric field (d) both (b) and (c) Answer. Answer: d. 25. Which of the following statement is false for the properties of electromagnetic waves

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The Wave-Particle Duality Plants make use of the Sun's electromagnetic energy for photosynthesis. Electrodynamics was very successful in describing electromagnetic energy in terms of fields and waves, but early in the 20th century, Albert Einstein's investigation of the photoelectric effect, in which light dislodges electrons from a metal surface, raised a problem Electromagnetic fields produced by the time varying sources are propagated through a waveguide or transmission line. An electromagnetic wave radiation is formed when these electromagnetic fields are propagated away from the sources without any connection or conducting medium to the sources The frequency of an electromagnetic wave produced by the oscillator is the same as that of a charged particle oscillating about its mean position i.e., 109 Hz. The amplitude of the magnetic field part of a harmonic electromagnetic wave in vacuum is B₀ = 510 nT The electromagnetic waves are produced only by charged particle. READ: Why do quarks move so fast? What is the difference between matter wave and electromagnetic wave? The key difference between electromagnetic wave and matter wave is that electromagnetic waves have electric and magnetic fields associated with them (which has led to name these. How are electromagnetic waves produced? What is the source of the energy carried by a propagating electromagnetic wave? Identify the electromagnetic radiations used (i) In remote switches of a household electronic device; and (ii) as a diagnostic tool in medicine. Advertisement Remove all ads

Electromagnetic waves are produced by a) accelerated charged particle b) decelerated charged particle c) charge in uniform motion d) None of the above 34. A beam of light travelling along x-axis is described by the electric field 600 sin /1 EVm txc y ω. An electromagnetic wave is a wave that is capable of transmitting its energy through a vacuum (i.e., empty space). Electromagnetic waves are produced by the vibration of charged particles. Electromagnetic waves that are produced on the sun subsequently travel to Earth through the vacuum of outer space

Electromagnetic waves are produced by changing (time variable) electric and/or magnetic fields, it is wrong to picture electric field extending in one direction then a particle or something else pulling it back and forcing it to move in another direction 12. Electromagnetic waves are produced by: (a) accelerated charged particle (b) deaccelerated charged particle (c) charge in uniform motion (d) none of the above 13. Beyond which frequency, the ionosphere bends any incident electromagnetic radiation but do not reflect in back towards the earth

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1. Electromagnetic waves are produced by. 2. The direction in which electromagnetic waves propagate is the same as that of. 3. In electromagnetic waves the phase difference between electric field vector and magnetic field vector is. 4 To understand how electromagnetic waves are produced, we have to dive into the basics of electromagnetics a little bit. Electric field We know that a particle can have any of the three electric charges - positive (For example, proton = unit positive charge), negative (Eg. electron = unit negative charge), or neutral (Ex. neutron)

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A sound wave is the transmission in space and time, of the mechanical oscillations produced by a source. An electromagnetic wave is the transmission in space and time of electric and magnetic. C) Both are longitudinal waves. D) Both are transverse waves. 7.How are electromagnetic waves that are produced by oscillating charges and sound waves that are produced by oscillating tuning forks similar? A) a node B) an antinode C) a standing wave D)a pulse 8.A single vibratory disturbance moving through a medium is called A) reflection B. Or simply to generate the electromagnetic wave of 8×10^14 Hz (light), i will have to oscillate the charges with the frequency of 8×10^14 Hz in the conductor ? Yes, but of course this is impractical. Or all these electromagnetic waves will be produced in any other different ways An electromagnetic wave can be produced, when charge is (a) moving with a constant velocity (b) moving in a circular orbit (c) falling in an electric field (d) both (b) and (c) Answer Answer: (d) Q.26. Which of the following statement is false for the properties of electromagnetic waves

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Electromagnetic Wave Equation. The wave equation for a plane electric wave traveling in the x direction in space is. with the same form applying to the magnetic field wave in a plane perpendicular the electric field. Both the electric field and the magnetic field are perpendicular to the direction of travel x. The symbol c represents the speed of light or other electromagnetic waves Electromagnetic waves are also produced when fast moving electrons are suddenly stopped by a metallic surface of high atomic number. Nature of Electromagnetic Waves Gamma rays have the smallest wavelengths and the most energy of any wave in the electromagnetic spectrum. They are produced by the hottest and most energetic objects in the universe, such as neutron stars and pulsars, supernova explosions, and regions around black holes. On Earth, gamma waves are generated by nuclear explosions, lightning, and. An electromagnetic wave can be produced, when charge is (a) moving with a constant velocity (b) moving in a circular orbit (c) falling in an electric field (d) both (b) and (c) Answer. Answer: d. 5. Which of the following statement is false for the properties of electromagnetic waves These types of electromagnetic waves are produced by three main factors. o An electric field is produced by any charged particle. This field exerts a force on other particles. The positively charged particles accelerate towards the field whereas the negatively charged particles move against the field. o The movement of charged particles is.

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How Are Electromagnetic Waves Produced? ~ Physics

1. trace the development of wireless communication; 2. explain how electromagnetic waves are produced; 3. discuss the properties and uses of the different regions of electromagnetic spectrum; 4. describe how radio signals are generated, transmitted and received; 5. explain how radio communication devices like cell phones, radio and TV work; 6. discuss how lasers and fiber optics have improved. Electromagnetic waves. Electromagnetic waves are produced by accelerating charges. The fields of the wave are self-supporting - the electric field induces the magnetic field, and the magnetic field induces the electric field. Both radio waves and light are electromagnetic waves; their main difference is their frequency.. Because you asked if Maxwell's equations can be used to show that all EM waves are produced by accelerating charges. The existence of vacuum solutions contradicts that since vacuum solutions have waves without any charges at all. This statement has to be handled with caution since it can lead to wrong conclusions in certain cases

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The frequency is equal to the speed of light divided by wavelength for electromagnetic waves. There's an inverse relationship here. Now, let's understand the very special nature of the electromagnetic wave. Consider a single charged particle, produced by running a comb through your hair. The comb now has a charge The frequency of the electromagnetic waves produced by the oscillator is the same as its frequency of vibration, i.e. 10 9 Hz. Question 24. The amplitude of the magnetic field part of a harmonic electromagnetic wave in a vacuum is B 0 = 510 nT Electromagnetic radiation is a flow of energy in which electrical and magnetic fields vary simultaneously. Radio waves, microwaves, infrared light, visible light, ultraviolet light, X-rays and gamma rays are all electromagnetic radiations. Electromagnetic radiations travel in space and vacuum through oscillating electrical and magnetic fields.