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Thanks -MC, if needs values of these ( the speed of the wave is, 1.The difference of 8 times a number z and 9 2.The quotient of times a number z and 3. less than the product of and a number z 4. times the difference of a number z and, y=0.1sin(200 t-20x/17) Where y is in millimetres, t is in seconds, and x is the distance from a fixed origin, O, in metres. . . 2. b The difference between the path of two waves is an odd multiple of /2, = (2n-1) /2. . . . )-1322(1)0(8)-200( . . The wave period is often referenced in seconds, e.g. D.) A wave bounces off the surface of a material. . After the collision, ball )Tj /F5 1 Tf 14.9073 0 TD 0 Tc 0 Tw (A)Tj /F3 1 Tf 1.1201 0 TD -0.0001 Tc 0.2222 Tw (moves at )Tj -16.0274 -1.1304 TD 0.114 Tw (10. meters per second and ball )Tj /F5 1 Tf 13.5376 0 TD 0 Tc 0 Tw (B)Tj /F3 1 Tf 1.012 0 TD -0.0001 Tc 0.114 Tw (at 15 meters)Tj -14.5496 -1.1304 TD 0.2961 Tw (per second, both still in the same direction. )Tj ET 1 g 44.896 529.737 514.03 -224.737 re f Q q 1 i 44.896 529.737 514.03 -224.737 re W* n 0 0 0 1 K 0 J 0 j 1 w 3.864 M []0 d /GS2 gs 361.654 527.855 m 361.654 457.008 l S Q 0 0 0 1 k /GS2 gs 1 i 361.654 457.008 m 364.155 458.675 l 361.654 452.008 l 359.154 458.675 l 361.654 457.008 l f* 0 0 0 1 K 0 J 0 j 1 w 3.864 M []0 d 246.437 344.292 m 246.437 415.139 l S 246.437 415.139 m 243.937 413.472 l 246.437 420.139 l 248.937 413.472 l 246.437 415.139 l f* BT /F8 1 Tf 11 0 0 11 236.6428 439.2725 Tm 0 Tc 0 Tw (\( 1 \))Tj 10.4743 -0.016 TD (\( 3 \))Tj -10.4743 -10.6364 TD (\( 2 \))Tj 10.4743 0.016 TD (\( 4 \))Tj -9.9193 15.4665 TD (B)Tj 10.4743 -10.6364 TD (B)Tj -9.7925 0 TD (B)Tj 10.5332 10.3636 TD (B)Tj ET 400.565 368.363 m 329.718 368.363 l S 329.718 368.363 m 331.385 365.863 l 324.718 368.363 l 331.385 370.864 l 329.718 368.363 l f* 211.784 485.863 m 282.631 485.863 l S 282.631 485.863 m 280.964 488.363 l 287.631 485.863 l 280.964 483.363 l 282.631 485.863 l f* q -1 793 614 -794 re 12 782 m W n 0 792.06 612 -792 re W n 1 g /GS1 gs 44.896 644.737 516.196 -89.901 re f Q 0.95 w 264.034 601.793 m 347.984 637.429 l S 347.984 637.429 m 345.598 638.996 l 352.356 639.285 l 347.454 634.624 l 347.984 637.429 l f* 263.863 601.937 m 348.423 567.773 l S 348.423 567.773 m 347.845 570.568 l 352.828 565.993 l 346.065 566.164 l 348.423 567.773 l f* BT 10.45 0 0 10.45 300.221 624.8869 Tm (R)Tj 0 -5.1818 TD (A)Tj ET q -1 793 614 -794 re 12 782 m W n 0 792.06 612 -792 re W n 1 g /GS1 gs 42.59 742.961 526.772 -72 re f BT /F1 1 Tf 11.5 0 0 11.5 287.2948 733.4286 Tm 0 g -0.0002 Tc 0.0278 Tw (Part B1)Tj -5.5357 -1.6522 TD -0.0001 Tc [(Answer all questions in this part. . . )-1470.4(2)0(9)-429.5( . . . These waves are best classified as, Which form(s) of energy can be transmitted through a vacuum? . im assuming you get k=1.16, A: The number of waves that pass a certain point within a certain time. D: 6.7 10^14 s, A duck floating on a lake oscillates up and down 5.0 times during a 10.-second interval as a periodic wave passes by. C: 5.0 m . How much work must be done by friction to)Tj T* 0.025 Tw [(bring the sled with the child to a stop? Which phrase best describes the sound waves produced by this oscillating tuning fork? A: They require a medium )]TJ 2.6087 -2 TD 0.0324 Tw (A ray of light passes from air into a block of)Tj -1.5652 -1.1304 TD 0.0439 Tw (transparent material )Tj /F5 1 Tf 8.6927 0 TD 0 Tc 0 Tw (X)Tj /F3 1 Tf 0.9048 0 TD -0.0001 Tc 0.0439 Tw (as shown in the diagram)Tj -9.5975 -1.1304 TD -0.0002 Tc 0 Tw [(below)73.7(. . <>stream In one or two, A. long wavelength and low frequency B. long wavelength and high frequency C. short wavelength in low frecuency D. short wavelength and high frequency 11. . A. waves with a short wavelength have a low frequency and high energy. endstream endobj 34 0 obj<>/ProcSet[/PDF/Text]/ExtGState<>>> endobj 35 0 obj<> endobj 36 0 obj<>stream )Tj 9 0 0 9 66.8205 105.958 Tm 0.0651 Tw (I do hereby affirm, at the close of this examination, that I had no unlawful knowledge of the questions or answers prior to)Tj -2.6667 -1.3333 TD 0.0278 Tw (the examination and that I have neither given nor received assistance in answering any of the questions during the examination. << /Contents 20 0 R /MediaBox [ 0 0 612 792 ] /Parent 5 0 R /Resources 21 0 R /Type /Page >> . . B.) Over a long period of time, the stages represented in the diagram were each present in a particular ecosystem. )Tj -2.5761 -2.8696 TD 0.413 Tc 0 Tw (2A)Tj 1.561 0 TD ( )Tj 0.2952 0 TD -0.0001 Tc 0.0453 Tw (vector makes an angle, )Tj /F6 1 Tf 9.7576 0 TD 0 Tc 0 Tw ()Tj /F3 1 Tf 0.5 0 TD -0.0001 Tc 0.0453 Tw (, with the horizontal. . D: amplitude, If the amplitude of a wave traveling in a rope is doubled, the speed of the wave in the rope will . 10) a digital signal, which is less likely to degrade. Answer in units of m. The oscillator that generates the wave com- pletes 44.0 vibrations in 26.9 s. A given crest of the wave travels 359 cm along the rope in a time period of 11.6 s. What is the wavelength? a. amplitude of the wave. . . In essence, they are electrical and. . . . . . . . . (1 point) A. higher pitch and shorter wavelength B. higher pitch and longer wavelength C. lower pitch and shorter, 12 of 1412 of 14 Items Question The formula vw=f describes the relationship between the speed of a wave (vw ), and its frequency (f ) and wavelength ( ). A. . . 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[)Tj 9 0 0 9 559.6923 290.7357 Tm 0 Tc 0 Tw (2)Tj 11.5 0 0 11.5 564.1023 290.7357 Tm (])Tj -20.9472 -3.2174 TD -0.0001 Tc 0.3037 Tw [(70)-413.2(Calculate the absolute index of refraction of)]TJ 1.413 -1.1304 TD 0 Tw (material )Tj /F5 1 Tf 3.7101 0 TD 0 Tc (X)Tj /F3 1 Tf 0.6108 0 TD -0.0001 Tc 0.0741 Tw (. Which circuit uses the greatest power? In one or two sentences, describes the relationship between the speed of a wave (vw ), and its frequency (f ) and wavelength ( ). cos x, which phrase best describes the transformation used to obtain the graph of g(x) = cos(x + a) b, if a and b are positive constants? Frequency If the frequency of a sound wave is doubled the period of the sound wave is halved. . A. a single pulse traveling at constant speed B. a series of pulses at irregular intervals C. a series of pulses at regular intervals D. a single pulse traveling at di erent speeds in the same medium 29. . . . . [)]TJ 9 0 0 9 388.2027 291.1809 Tm 0 Tw (1)Tj 11.5 0 0 11.5 392.7027 291.1809 Tm (])Tj ET 1 g 66.677 624.713 216.991 -77.886 re f Q BT /F8 1 Tf 11 0 0 11 105.669 597.4399 Tm 0 0 0 1 k /GS2 gs 0 Tc 0 Tw (x)Tj 0 -1 TD (x)Tj T* (x)Tj T* (x)Tj 1.7425 3 TD (x)Tj 0 -1 TD (x)Tj T* (x)Tj T* (x)Tj 2.9886 3 TD (x)Tj 0 -1 TD (x)Tj T* (x)Tj T* (x)Tj 1.7348 3 TD (x)Tj 0 -1 TD (x)Tj T* (x)Tj T* (x)Tj 1.4886 3 TD (Magnetic)Tj 0 -1 TD (field)Tj T* (directed)Tj T* (into the page)Tj -4.8068 4.0909 TD (R)Tj 0.0274 -5.2727 TD (S)Tj ET 0 0 0 1 K 0 J 0 j 1 w 3.864 M []0 d 1 i 140.669 605.753 m 140.669 606.408 142.292 606.94 144.294 606.94 c 146.296 606.94 147.919 606.408 147.919 605.753 c 147.919 605.097 146.296 604.565 144.294 604.565 c 142.292 604.565 140.669 605.097 140.669 605.753 c h 147.935 563.628 m 147.935 562.972 146.296 562.44 144.294 562.44 c 142.292 562.44 140.419 562.909 140.419 563.565 c 147.794 563.565 m 147.794 605.44 l 140.419 563.44 m 140.419 605.315 l S q -1 793 614 -794 re 12 782 m W n 0 792.06 612 -792 re W n 0 G 10 M /GS1 gs 305.001 668.817 m 305.001 199.633 l S Q Students model a wave by moving the end of a rope up and down. (a) wave velocity (b) frequency (c) energy (d) wavelength, A string of colored lights edged the deck. )-1322(1)0(3)-200( . endobj . [)]TJ 9 0 0 9 486.4143 634.1809 Tm 0 Tc 0 Tw (1)Tj 11.5 0 0 11.5 490.9143 634.1809 Tm (])Tj -14.5199 -3.2174 TD -0.0001 Tc 0.2014 Tw [(54)-413.2(A light bulb attached to a 120.-volt source of)]TJ 1.413 -1.1304 TD 0.0199 Tc 0.6556 Tw (potential difference draws a current of )Tj T* -0.0001 Tc 0.1821 Tw (1.25 amperes for 35.0 seconds. . A.) . ___m (c)Find the speed of the wave. endobj . )]TJ /F5 1 Tf -14.13 -2.1739 TD -0.0002 Tc 0 Tw (Directions)Tj /F3 1 Tf 4.5506 0 TD -0.0001 Tc 0.025 Tw [(\(6476\): Record your answers in the spaces provided in your)-275.2(answer booklet. Identify the choice that best completes the statement or answers the question MCQ01 [3 points]: The motion of a 2.0-kg particle connected to a spring is described by T : P ; . [)]TJ 9 0 0 9 135.9434 531.5636 Tm 0 Tc 0 Tw (2)Tj 11.5 0 0 11.5 140.4434 531.5636 Tm (])Tj -7.9176 -3.2174 TD -0.0101 Tc 0.0175 Tw [(74)-443.2(After a short time, the moving sled with the child)]TJ 1.423 -1.1304 TD 0.0228 Tw (aboard reaches a rough level surface that exerts a)Tj T* 0.2428 Tw (constant frictional force of 54 newtons on the)Tj T* -0.0086 Tw (sled. a. convert the wavelength of this radio wave into meters. 1 g /GS1 gs 12 782 m 12 782 l f q 1 i -1 793 614 -794 re 12 782 m W n 0 792.06 612 -792 re W n 42 743.539 528 -595.872 re f BT /F3 1 Tf 11.5 0 0 11.5 48.75 734.0064 Tm 0 g -0.0001 Tc 0.0025 Tw [(42)-413.2(Which graph best represents the relationship between the kinetic energy)73.9(, )]TJ /F5 1 Tf 31.833 0 TD 0 Tw (KE)Tj /F3 1 Tf 1.3149 0 TD 0.0025 Tw (, and the velocity of an object)Tj -31.7349 -1.1304 TD 0.025 Tw (accelerating in a straight line? . . . Record your answers to the Part A)]TJ T* -0.0002 Tc 0.1316 Tw [(and Part B1 multiple-choice questions on your separate answer sheet. This equation can be used to calculate wave speed when wavelength and frequency are known. . What's the amplitude of the right moving wave and left moving wave? . Which phrase best describes a periodic wave? )Tj 5.7602 0 TD (. A pile of snow slowly disappears into the air, even though the temperature remains below freezing. . The sound wave slows down and refracts. C: velocity . The rows are called the periods while the columns are called the groups.. long wavelength and high frequency long wavelength and low frequency short wavelength and low frequency short wavelength and high frequency 3. << /Contents 18 0 R /MediaBox [ 0 0 612 792 ] /Parent 5 0 R /Resources 19 0 R /Type /Page >> . . . Frequency and wavelength Wavelength and wave speed***** Amplitude and wavelength Amplitude and frequency 2. . Speed= wavelength x, Originating in Bohemia, the polka was first developed around 1830. Which phrase describes a valence electron? 7 0 obj 1,774 views . . . . A wave is defined as "a periodic disturbance that moves through space." The disturbance could mean the high and low parts of an ocean wave, or the high and low pressure parts of a sound wave, etc. Write a word phrase for the algebraic expression. If the electromagnetic wave has an electric field of 0.22 V/m, what is the magnetic field amplitude? . What term best describes. 6. which type of surface is best for absorbing sound waves? . )Tj -25.2297 -19.5652 TD -0.0001 Tc -0.0305 Tw [(44)-413.2(Identical resistors \()]TJ /F5 1 Tf 9.2528 0 TD 0 Tc 0 Tw (R)Tj /F3 1 Tf 0.6479 0 TD -0.0001 Tc -0.0304 Tw [(\) are connected across the same 12-volt battery)73.8(. [)Tj 9 0 0 9 286.1731 330.7136 Tm 0 Tc 0 Tw (1)Tj 11.5 0 0 11.5 290.6731 330.7136 Tm (])Tj -20.9498 -3.7391 TD -0.0001 Tc -0.0102 Tw [(61)-413.2(The period of a pendulum is related to its length)]TJ 1.413 -1.6522 TD 0.005 Tw (by the formula: )Tj /F5 1 Tf 6.5676 0 TD 0 Tc 0 Tw (T)Tj /F3 1 Tf 7.993 0 0 7.993 149.4943 272.5087 Tm (2)Tj 11.5 0 0 11.5 156.4226 268.7137 Tm (=)Tj 24 0 0 24 166.2529 264.7135 Tm 0.6883 Tc [(\(\))688.5( )]TJ 9 0 0 9 204.8696 267.2137 Tm 0 Tc ()Tj /F10 1 Tf 11.5 0 0 11.5 215.4885 268.7137 Tm ( )Tj /F3 1 Tf 0.755 0 TD -0.0001 Tc (where )Tj /F5 1 Tf 2.8084 0 TD 0 Tc (g)Tj /F3 1 Tf 0.7359 0 TD -0.0001 Tc (repre-)Tj -17.2983 -1.6522 TD 0.2567 Tw [(sents the acceleration due to gravity)73.8(. . . . . [Show all work, including the equa-)Tj -4.321 -1.1304 TD 0.025 Tw [(tion and substitution with units.] . . Wave motion in a medium transfers. . . . B. A person moves away from a stationary sound source. . C. The phase of the medium. c).What is the frequency of the wave? A disturbance that travels through a medium with a transfer of. The dark lines observed on a bright back-)Tj T* 0.025 Tw (ground are caused by)Tj 0 -1.4783 TD 0.3422 Tw [(\(1\))-497.6(the hydrogen emitting all frequencies in)]TJ 1.663 -1.1304 TD 0.025 Tw (white light)Tj -1.663 -1.1304 TD 0.074 Tw [(\(2\))-497.6(the hydrogen absorbing certain frequencies)]TJ 1.663 -1.1304 TD 0.025 Tw (of the white light)Tj -1.663 -1.1304 TD [(\(3\))-500.1(diffraction of the white light)]TJ T* [(\(4\))-500.1(constructive interference)]TJ 22.4589 34 TD 0.0626 Tw [(32)-413.2(Compared to a photon of red light, a photon of)]TJ 1.413 -1.1304 TD 0.025 Tw (blue light has a)Tj 0 -1.4783 TD [(\(1\))-500.1(greater energy)]TJ 0 -1.1304 TD [(\(2\))-500.1(longer wavelength)]TJ T* [(\(3\))-500.1(smaller momentum)]TJ T* [(\(4\))-500.1(lower frequency)]TJ -1.413 -3.3913 TD [(33)-413.2(Protons and neutrons are examples of)]TJ 1.413 -1.4783 TD 0 Tw [(\(1\))-500.1(positrons)-5186.2(\(3\))-500.1(mesons)]TJ 0 -1.1304 TD -0.0002 Tc [(\(2\))-500.2(baryons)-5742.2(\(4\))-500.2(quarks)]TJ -1.413 -3.3913 TD -0.0001 Tc 0.025 Tw [(34)-413.2(The strong force is the force of)]TJ 1.413 -1.4783 TD [(\(1\))-500.1(repulsion between protons)]TJ 0 -1.1304 TD [(\(2\))-500.1(attraction between protons and electrons)]TJ T* [(\(3\))-500.1(repulsion between nucleons)]TJ T* [(\(4\))-500.1(attraction between nucleons)]TJ -1.413 -2.8696 TD 0.0127 Tw [(35)-413.2(If a deuterium nucleus has a mass of 1.53 )]TJ /F9 1 Tf 18.7784 0 TD 0 Tc 0 Tw ()Tj /F3 1 Tf 0.8116 0 TD (10)Tj 7.993 0 0 7.993 561.3016 471.4612 Tm (3)Tj 11.5 0 0 11.5 340.7668 454.6661 Tm -0.0001 Tc 0.1859 Tw (universal mass units less than its components,)Tj 0 -1.1304 TD 0.025 Tw (this mass represents an energy of)Tj 0 -1.4783 TD [(\(1\))-500.1(1.38 MeV)-4881.7(\()0.2(3\))-500.1(1.53 MeV)]TJ 0 -1.1304 TD [(\(2\))-500.1(1.42 MeV)-4881.7(\()0.2(4\))-500.1(3.16 MeV)]TJ ET 1 g 42 62 528 -21 re f BT /F1 1 Tf 7 0 0 7 43 53.5807 Tm 0 g 0.0278 Tw (PhysicsJune 03)Tj /F3 1 Tf 10 0 0 10 301.1724 53.5807 Tm 0 Tw ([5])Tj 9 0 0 9 538.0142 53.5807 Tm -0.0002 Tc ([OVER])Tj ET 0 G 0 J 0 j 1 w 10 M []0 d 306 744.456 m 306 342 l S 125.428 328.269 m 486.092 328.269 l S Q . )]TJ 2.6087 -2 TD 0.2578 Tw (Three lamps were connected in a circuit)Tj -1.5652 -1.1304 TD 0.185 Tw (with a battery of constant potential. 5. which option is an example of reflection? endstream endobj 58 0 obj<>>> endobj 59 0 obj<> endobj 60 0 obj<>stream . . . The choices are A: wavelength/2 B: wavelength C: 2 X amplitude D) period E) period/2 It doesnt show the, Her teacher asks her to change the wave to show a greater energy transfer. . . . The frequency of this light is The time dependence of the displacement at any single point in space is . 2014-03-11 02:07:34. . Atomic radii decrease from left to right across a period and decrease from top to bottom in a group. In one word, what is it that moves from source to receiver in a wave motion? . . 14 0 obj For a periodic wave, the period is the repeat time of the wave. )Tj ET Q Then, slowly and)]TJ T* 0.0278 Tw [(carefully)73.8(, tear off the answer sheet and fill in the heading. . . . I would describe wave motion as propagating oscillations as a general phrase. . First, the student touches an end of one)Tj T* 0.0221 Tw [(piece to one end of the other)73.8(. The wavelength increases. Is the answer D? [)]TJ 9 0 0 9 507.7173 227.7358 Tm 0 Tc 0 Tw (2)Tj 11.5 0 0 11.5 512.2173 227.7358 Tm (])Tj -16.4354 -3.2174 TD -0.0001 Tc 0.2803 Tw [(71)-413.2(The refracted light ray is reflected from the )]TJ 1.413 -1.1304 TD 0 Tw (material )Tj /F5 1 Tf 3.9333 0 TD 0 Tc (X)Tj /F3 1 Tf 0.6108 0 TD -0.0001 Tc 0.2973 Tw (air boundary at point )Tj /F5 1 Tf 10.5731 0 TD 0 Tc 0 Tw (P)Tj /F3 1 Tf 0.5559 0 TD -0.0001 Tc 0.2973 Tw (. . . along positive x-axis in air. )Tj -8.446 -11.5652 TD 0.0115 Tw (Which diagram best represents the directions of)Tj 0 -1.1304 TD 0.1309 Tw (the gravitational force, )Tj /F5 1 Tf 9.9045 0 TD 0 Tc 0 Tw (F)Tj 7.993 0 0 7.993 458.6044 557.6337 Tm (g)Tj /F3 1 Tf 11.5 0 0 11.5 462.4485 561.4286 Tm -0.0001 Tc 0.1309 Tw (, and the electrostatic)Tj -10.6316 -1.1304 TD 0 Tw (force, )Tj /F5 1 Tf 2.596 0 TD 0 Tc (F)Tj 7.993 0 0 7.993 375.1318 544.6336 Tm (e)Tj /F3 1 Tf 11.5 0 0 11.5 378.5349 548.4286 Tm -0.0001 Tc -0.0136 Tw (, acting on sphere )Tj /F5 1 Tf 7.4871 0 TD 0 Tc 0 Tw (A)Tj /F3 1 Tf 0.8844 0 TD -0.0001 Tc -0.0136 Tw (due to the mass and)Tj -11.7062 -1.1304 TD 0.1264 Tw (charge of sphere )Tj /F5 1 Tf 7.4758 0 TD 0 Tc 0 Tw (B)Tj /F3 1 Tf 0.6479 0 TD -0.0001 Tc 0.1264 Tw [(? 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What is the compass direction of the force)Tj T* 0.025 Tw [(being exerted on the child by the nozzle? 3. d << /Count 6 /Kids [ 7 0 R 8 0 R 9 0 R 10 0 R 11 0 R 12 0 R ] /Parent 4 0 R /Type /Pages >> . )Tj 0 -1.4783 TD 0.025 Tw [(\(1\))-500.1(0.11 m/s)]TJ 7.993 0 0 7.993 125.4671 169.2724 Tm 0 Tc 0 Tw (2)Tj 11.5 0 0 11.5 188.2056 165.4774 Tm -0.0001 Tc 0.025 Tw [(\(3\))-500.1(0.22 m/s)]TJ 7.993 0 0 7.993 247.4671 169.2724 Tm 0 Tc 0 Tw (2)Tj 11.5 0 0 11.5 66.2056 152.4774 Tm -0.0001 Tc 0.025 Tw [(\(2\))-500.1(2.0 m/s)]TJ 7.993 0 0 7.993 119.7171 156.2724 Tm 0 Tc 0 Tw (2)Tj 11.5 0 0 11.5 188.2056 152.4774 Tm -0.0001 Tc 0.025 Tw [(\(4\))-500.1(9.0 m/s)]TJ 7.993 0 0 7.993 241.7171 156.2724 Tm 0 Tc 0 Tw (2)Tj 11.5 0 0 11.5 327.5153 650.4774 Tm 0.638 Tc (4A)Tj 1.786 0 TD ( )Tj 0.349 0 TD -0.0001 Tc 0.0991 Tw [(ball is thrown at an angle of 38)-349.1(to the hori-)]TJ -0.997 -1.1304 TD 0.1426 Tw (zontal. . . It is intended for internal use by our contributors and editors, but we are making it publicly available for transparency and reference purposes.Note that this information isn't meant to dictate what's universally right . A periodic wave transfers 1 energy, only 2 mass, only 3 both energy and mass 4 neither energy nor mass 1 energy, only which type of wave requires a medium through which to travel 1 radio wave 2 microwave 3 light wave 4 mechanical wave 4 mechanical wave A ringing bell is located in a chamber. . . 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