International atomic energy agency slide set of 44 slides based on the chapter authored by k. E can be expressed as a function of the wave age which can be modeled by the energy transfer equation from sajjadi, hunt and drullion 2012. Examples of electromagnetic waves include visible light, microwaves, tv and radio signals, and xrays used by dentists and doctors. To familiarize students with basic principles of atomic and nuclear physics used in diagnostic radiology. We now begin to explore some of the interaction mechanisms through which waves trade energy. Waves are an oscillation that moves through a medium. Chemical reactions virtually all fossil fuels and biofuels are converted to useful energy via chemical reactions at a rate of tw energy released by conversion reactions can be converted to mechanical energy or electricity some reactions are used to convert a primary energy. S3p103 compare and contrast the frequency and period of a periodic wave. Chapter 20 the energy of waves section 1 the nature of. In a more modest example, think about the amount of energy you transfer when you shake the end of a spring. As shown below, an electromagnetic wave is a transverse wave consisting of mutually perpendicular oscillating electric and magnetic fields.
Compared to ripples, tsunamis transfer enormous amounts of energy. Statistics on energy consumption by source revealed that gas and oil had largest share as shown in following figure. Mechanical and electromagnetic waves transfer energy, momentum, and. In general, a wave traveling in the xdirection can be represented by the function of the form f. Waves unit study guide key 2 figure 1 figure 2 use figure 1 and figure 2 above to answer questions 10. Na in any periodic motion, the amount of time required for an object to repeat one complete cycle of motion waves transfer energy without transferring matter. Mechanical waves require a material medium in order to have motion. Microsoft powerpoint chapter14 compatibility mode author. Jee advanced previous year solved papers r k maliks. Intensity of sound waves the average intensity iof a wave on a given surface is defined as the rate at which the energy flows through the surface divided by the surface area, a the direction of energy flow is perpendicular to the surface at every point the rate of energy. Waves a wave is a disturbance that pppg gropagates through space and time, usually with transferrance of energy. Chapter maxwells equations and electromagnetic waves. Chapter 10 notes waves chapter 11 waves and sound part 1.
Energy outages hampered economic growth of pakistan for last few years. Use mathematical representations to describe a simple model for waves that includes how the amplitude of a wave is related to the energy in a wave. Chapter 20 the energy of waves section 1 the nature of waves. Quizlet flashcards, activities and games help you improve your grades. Identify how waves transfer energy without transferring matter contrast transverse and longitudinal waves relate wave speed. Simple harmonic motion and circular motion chapter 14. A wave is a spatial form that translates in space while maintaining its shape. In absorption spectroscopy a photon is absorbed by an atom or molecule, which undergoes a transition from a lower energy state to a higher energy, or excited state figure 10.
The physics of waves version date february 15, 2015. Water waves, sound waves, and waves that travel along a spring or rope are mechanical waves. Intuitively, our model of wave motion comes from expe riences with the visible waves found in water and. Waveparticle duality more accurate measurements were made by philipp lenard between 1900 and 1902 for which he received the nobel prize in 1905. Making waves characteristics of waves ripples and tsunamis are both transverse waves, but the similarities end there. In absorption spectroscopy a photon is absorbed by an atom or molecule, which undergoes a transition from a lowerenergy state to. In physics, mathematics, and related fields, a wave is a disturbance change from equilibrium. When destructive interference occurs between two waves that have the same amplitude, the waves may completely cancel each other out. Describe how switching the desk lamp on and off shows that light waves transfer energy. Learn vocabulary, terms, and more with flashcards, games, and other study tools.
Waves and energy transfer study guide by morgang44 includes 45 questions covering vocabulary, terms and more. Like ocean waves, electromagnetic waves or em waves move in a transverse, sshaped pattern. Waves and energy transfer making waves here is a summary of different types of waves, put together by a physics class at st. Radiation is the transfer of energy due to electromagnetic waves when thermal energy is converted by the movement of the charges of electrons and protons in the material. Rate of energy transfer by sinusoidal waves on strings. Of course, the up and down motion of hand keeps putting energy into the. Mechanical wave energy transfer by vibration of material particles in response to a. Introduction wave motion is the transfer of energy from a source to a distant receiver without the transfer of matter between the two points. Assessment does not include electromagnetic waves and is limited to standard repeating waves. In this chapter we examine how waves transfer energy. Relate upwelling areas to their impact on the food chain. Fast filechapters 1115 resources, chapter 14 study guide, pp. Therefore, the power p, or rate of energy transfer t mw.
Types of waves waves transfer energy energy is the ability to exert a force over a certain distance. In our work we will be working with waves that are rhythmic occur. If we consider a slightly different value of k, we can again write ck, t in terms of its fourier. When each reflected wave reaches point a, it reflects again and the process repeats. Ppt chapter 14 waves and energy transfer powerpoint. Emphasis is on describing waves with both qualitative and quantitative thinking.
Water, air, springs, or rope are the materials that carry the energy of these mechanical waves. The time of compression and rarefaction is too small, i. Frequency and wavelength distinguish sound from earthquakes, radar from sunlight. Radio waves and microwaves are examples of em waves we use every day. The total energy in one wavelength of the wave is the sum of the potential and kinetic energies. Sound waves are longitudinal waves traveling through a. Light, reflection, and color characteristics of light light is an electromagnetic wave. Interference of light waves creates colorful displays. Electromagnetic waves are ultimately produced by an accelerating charge. A rhythmic disturbance that carries energy through matter or space. Further since early chapter 14 energy oil 29% gas 44% coal 10% eletricity 16% lpg 1% fig1. Waves can transfer energy without a medium waves that transfer energy without a medium are called electromagnetic waves. Describe how surface currents form and how they affect the worlds climate.
This section duplicates the scope of other sections, specifically, sinusoidal wave and frequency. Critical thinking if raindrop falls into pool, it creates waves with small amplitudes if a swimmer jumps into a pool. Con edison, along with other smaller transmission companies, delivers electricity to new york city and almost all of westchester county. Of course, a physics wave and a stadium wave are not really the same thing.
Likewise, specific energytransferring capacities that demand allout. Each of these phenomena involves the transfer of energy from a source to a receiver without a transfer of matter. Electromagnetic waves may also go through matter, such as air, water, or glass. Chapter 5 introduction to energy transfer 119 the capacity to extract energy from the food macronutrients and continually transfer it at a high rate to the contractile elements of skeletal muscle determines ones capacity for swimming, running, or skiing long distances. Ncert exemplar class 11 physics chapter 14 waves learn cbse.
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