which phrase best describes a periodic wave

4. c 14 0 obj A. a transverse wave B. a longitudinal wave C. a, What are the three lowest notes that this string can play (keeping the string at its full length)? Its true though that all waves can be broken up into periodic waves (extending in both space and time to infinity). They have long wavelengths that can, Kris was anxious (about her new job) a. infinitive phrase b. adverb phrase c. adjective phrase d. appositive phrase***. I Would Describe Wave Motion As "Propagating Oscillations" As A General Phrase. The wave speed increases. 1980s Slang Terms and Phrase List A Airhead - Someone who lacks common . . 2. b What happens to the magnitude of the)Tj T* 0.1026 Tw [(ball)91.7(s vertical acceleration during the total time)]TJ T* 0.025 Tw (interval that the ball is in the air? 3 0 obj Which phrase best describes this sequence of diagrams? )]TJ T* 0.0103 Tc 0.3646 Tw (Approximately how high will the ball rise? This observa-)Tj T* 0.1978 Tw (tion provides evidence that the wavelength of)Tj T* 0.025 Tw (the waves is)Tj 0 -1.4783 TD [(\(1\))-500.1(m)-0.1(uch shorter than 10. cm)]TJ 0 -1.1304 TD [(\(2\))-500.1(equal to 10. cm)]TJ T* [(\(3\))-500.1(longer than 10. cm, but shorter than 20. cm)]TJ T* [(\(4\))-500.1(longer than 20. cm)]TJ ET 1 g 45.226 265.626 247.253 -125.505 re f Q BT /F8 1 Tf 10.45 0 0 10.45 132.5014 253.3657 Tm 0 0 0 1 k /GS2 gs -0.0003 Tc 0 Tw (Wire)Tj ET 0 0 0 0.2 k 141.547 246.374 4.621 -81.633 re f BT 10.45 0 0 10.45 125.2383 228.2714 Tm 0 0 0 1 k 2.0461 Tc (XXXX)Tj 0 -2.8267 TD (XXXX)Tj T* (XXXX)Tj ET 0 0 0 1 K 0 J 0 j 0.95 w 3.864 M []0 d 1 i 141.121 246.381 m 141.121 164.74 l 146.613 246.381 m 146.613 164.74 l S BT 9.5 0 0 9.5 103.6992 147.361 Tm -0.0002 Tc 0.0001 Tw (Magnetic field directed into page)Tj ET 147.162 214.697 m 184.687 214.697 l S 2 J 175.187 218.497 m 186.112 214.697 l 175.187 210.897 l S BT 9.5 0 0 9.5 160.6992 216.1221 Tm 0 Tc 0 Tw (v)Tj ET q -1 793 614 -794 re 12 782 m W n 0 792.06 612 -792 re W n 0 G 0 J 1 w 10 M /GS1 gs 306.466 742.74 m 306.466 72.168 l S Q . The number of times a wave repeats B. . )Tj 0 -1.4783 TD -0.0001 Tc 0.025 Tw [(\(1\))-500.1(0)-0.1(.00 N)-6140.5(\()0.2(3\))-500.1(1.60 )]TJ /F9 1 Tf 14.2992 0 TD -0.0002 Tc 0 Tw ( )Tj /F3 1 Tf 0.8238 0 TD 0 Tc (10)Tj 7.993 0 0 7.993 251.154 579.7719 Tm (3)Tj 11.5 0 0 11.5 258.3128 575.9768 Tm (N)Tj -16.7456 -1.1304 TD -0.0001 Tc [(\(2\))-500.1(2.00 )]TJ /F9 1 Tf 3.6905 0 TD 0 Tc ()Tj /F3 1 Tf 0.8238 0 TD (10)Tj 7.993 0 0 7.993 129.154 566.7719 Tm (2)Tj 11.5 0 0 11.5 136.3128 562.9768 Tm 3.6938 Tc (N\()Tj 4.8046 0 TD -0.0001 Tc [(4\))-500.1(3.20 )]TJ /F9 1 Tf 3.3578 0 TD 0 Tc ()Tj /F3 1 Tf 0.8238 0 TD (10)Tj 7.993 0 0 7.993 251.154 566.7719 Tm (3 )Tj 11.5 0 0 11.5 257.3482 562.9768 Tm (N)Tj -18.0747 -2.8696 TD (10)Tj 1.413 0 TD 0.0199 Tc 0.3789 Tw (A 10.-newton force is required to hold a)Tj 0 -1.1304 TD -0.0001 Tc 0.1467 Tw [(stretched spring 0.20 meter from its rest posi-)]TJ T* 0.0833 Tw (tion. )Tj ET 1 g 44.677 635.774 519.415 -177.19 re f Q 0 0 0 1 K 0 J 0 j 0.5 w 3.864 M []0 d /GS2 gs 1 i 181.078 580.187 m 181.078 628.187 l S 1 w 180.929 592.187 m 208.078 592.187 l 208.078 598.187 l 247.078 598.187 l 247.078 592.187 l 289.228 592.187 l S 0.5 w 178.078 592.187 m 181.078 592.187 l 178.078 580.187 m 289.078 580.187 l S BT /F8 1 Tf 10 0 0 10 169.517 614.1868 Tm 0 0 0 1 k 0 Tc 0 Tw (2)Tj 0 -1.2 TD (1)Tj T* (0)Tj -0.5562 -1.2 TD (1)Tj 11 0 0 11 216.375 559.3868 Tm (\( 1 \))Tj ET 181.078 484.187 m 181.078 532.187 l S 1 w 180.929 496.187 m 211.078 496.187 l 211.078 520.187 l 217.078 520.187 l 217.078 502.187 l 241.078 502.187 l 241.078 520.187 l 247.078 520.187 l 247.078 496.187 l 289.228 496.187 l S 0.5 w 178.078 496.187 m 181.078 496.187 l 178.078 484.187 m 289.078 484.187 l S BT 10 0 0 10 169.517 518.187 Tm (2)Tj T* (1)Tj T* (0)Tj -0.5562 -1.2 TD (1)Tj 11 0 0 11 216.375 463.387 Tm (\( 2 \))Tj ET 342.929 580.187 m 342.929 628.187 l S 1 w 342.78 592.187 m 384.929 592.187 l 384.929 616.187 l 396.929 616.187 l 396.929 592.187 l 451.079 592.187 l S 0.5 w 339.929 592.187 m 342.929 592.187 l 339.929 580.187 m 450.929 580.187 l S BT 10 0 0 10 331.3678 614.1868 Tm (2)Tj T* (1)Tj T* (0)Tj -0.5561 -1.2 TD (1)Tj 11 0 0 11 378.2257 559.3868 Tm (\( 3 \))Tj ET 342.929 484.187 m 342.929 532.187 l S 1 w 342.78 496.187 m 378.929 496.187 l 390.929 520.187 l 402.929 496.187 l 451.079 496.187 l S 0.5 w 339.929 496.187 m 342.929 496.187 l 339.929 484.187 m 450.929 484.187 l S BT 10 0 0 10 331.3678 518.187 Tm (2)Tj T* (1)Tj T* (0)Tj -0.5561 -1.2 TD (1)Tj 11 0 0 11 378.2257 463.387 Tm (\( 4 \))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 44.677 726.774 516.984 -62.007 re f Q 263.024 673.123 m 263.024 721.123 l S 1 w 263.049 685.123 m 278.524 685.123 l 278.524 697.123 l 290.524 697.123 l 290.524 685.123 l 326.524 685.123 l 326.524 697.123 l 338.524 697.123 l 338.524 685.123 l 353.799 685.123 l S 0.5 w 260.024 685.123 m 263.024 685.123 l 260.024 673.123 m 371.024 673.123 l S 1 w 292.297 691.123 m 299.184 691.123 l S 298.767 691.123 m 298.767 693.623 l 305.017 691.123 l 298.767 688.623 l 298.767 691.123 l f* 324.008 691.123 m 317.122 691.123 l S 317.539 691.123 m 317.539 688.623 l 311.288 691.123 l 317.539 693.623 l 317.539 691.123 l f* BT 10 0 0 10 251.4626 707.1228 Tm (2)Tj T* (1)Tj T* (0)Tj -0.5562 -1.2 TD (1)Tj 11 0 0 11 280.8557 687.123 Tm 3.6966 Tc (AB)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 42.151 428.148 528 -264.308 re f BT /F3 1 Tf 11.5 0 0 11.5 48.9014 418.616 Tm 0 g -0.0001 Tc 0.1438 Tw [(46)-413.2(Which graph best represents the motion of an)]TJ 1.413 -1.1304 TD 0.2615 Tw (object that is )Tj /F5 1 Tf 6.3092 0 TD 0 Tw (not)Tj /F3 1 Tf 1.8443 0 TD 0.2615 Tw (in equilibrium as it travels)Tj -8.1534 -1.1304 TD 0.025 Tw (along a straight line? . 1. . . . . . . . . 3x - 7 A. . )Tj -17.3386 -9.3913 TD -0.0001 Tc 0.1773 Tw (If angle )Tj /F6 1 Tf 3.7599 0 TD 0 Tc 0 Tw ()Tj /F3 1 Tf 0.9273 0 TD -0.0001 Tc 0.1773 Tw (were increased, what would be the)Tj -4.6872 -1.1304 TD 0.0317 Tw (effect on the magnitude of force )Tj /F5 1 Tf 13.7399 0 TD 0 Tc 0 Tw (F)Tj /F3 1 Tf 0.8745 0 TD -0.0001 Tc 0.0317 Tw (and the total)Tj -14.6144 -1.1304 TD 0 Tw (work )Tj /F5 1 Tf 2.3967 0 TD 0 Tc (W)Tj /F3 1 Tf 1.3049 0 TD -0.0001 Tc 0.1111 Tw (done on the crate as it is moved from )Tj /F5 1 Tf -3.7017 -1.1304 TD 0 Tc 0 Tw (A)Tj /F3 1 Tf 0.923 0 TD (to )Tj /F5 1 Tf 1.0899 0 TD (B)Tj /F3 1 Tf 0.6479 0 TD (? 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D: 8.53 x 10 m, What is the period of a water wave is 4 complete waves pass a fixed point in 10 seconds? )Tj -32.098 -2.4 TD [(School)-223(. endobj )]TJ T* [(\(3\))-500.1(It increases, then decreases. . . )-1322(2)0(3)-200( . . . 2) they carry and transfer energy . A: 3.40 10^2 s 1) the distance between wave crests . . . Wu"FNZPH8{?Cd{H>/{|N94# t?xTaMG{\z42)-rM=?qL-6&Br)j0h*g8.gO_AHH8D]{|SU-. . 8. which statement correctly describes the relationship between wavelength, frequency, and energy? . << /Metadata 3 0 R /Pages 4 0 R /Type /Catalog >> . The time it takes for a wave to repeat A: Hz s . Note that. B. deposition What is the frequency of the wave? B.) 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[)]TJ 9 0 0 9 553.4114 541.7136 Tm 0 Tc 0 Tw (1)Tj 11.5 0 0 11.5 557.9114 541.7136 Tm (])Tj ET Q q 1 i 171.639 283.821 21 -23.107 re 561.741 541.714 m W* n -1 793 614 -794 re 12 782 m W n 0 792.06 612 -792 re W n 0 G 0 J 0 j 0.5 w 10 M []0 d 173.639 271.765 m 191.358 271.765 l S BT /F3 1 Tf 11 0 0 11 174.389 273.8585 Tm 0 g 0 Tc 0 Tw (4)Tj 7 0 0 7 187.1078 277.1085 Tm (2)Tj /F9 1 Tf 11 0 0 11 180.4202 273.8585 Tm ()Tj /F5 1 Tf -0.0171 -0.8949 TD (g)Tj ET Q q 1 i -1 793 614 -794 re 12 782 m W n 0 792.06 612 -792 re W n 42 62 528 -21 re f BT /F1 1 Tf 7 0 0 7 43 53.5807 Tm 0 g -0.0001 Tc 0.0278 Tw (PhysicsJune 03)Tj /F3 1 Tf 10 0 0 10 298.6724 53.5807 Tm 0 Tw ([11])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 124.009 180.95 m 488.63 180.95 l S 306 744 m 306 190.958 l S 1 g 173.02 615.167 91.079 -16.148 re f 81.441 615.167 91.079 -16.148 re f 80.941 632.316 183.658 -117.039 re f 81.441 631.816 74.291 -32.797 re f BT /F2 1 Tf 10 0 0 10 94.1959 617.5122 Tm 0 g (Length)Tj /F8 1 Tf 3.6376 0 TD 0 Tc (\()Tj /F10 1 Tf 11.5 0 0 11.5 133.9 617.5122 Tm ()Tj /F8 1 Tf 10 0 0 10 139.65 617.5122 Tm (\))Tj -3.9667 -1.2 TD -0.0002 Tc (\(meters\))Tj ET 1 g 156.266 631.816 107.833 -32.797 re f BT /F2 1 Tf 10 0 0 10 160.2118 618.3297 Tm 0 g -0.0001 Tc 0.0278 Tw [(Square of P)29.7(eriod)]TJ /F8 1 Tf 8.3314 0 TD -0.0004 Tc 0 Tw (\(T)Tj 6.95 0 0 6.95 252.9618 621.6298 Tm 0 Tc (2)Tj 10 0 0 10 256.8255 618.3297 Tm (\))Tj -7.0521 -1.2 TD -0.0001 Tc (\(seconds)Tj 6.95 0 0 6.95 226.8688 609.6298 Tm 0 Tc (2)Tj 10 0 0 10 230.7324 606.3297 Tm (\))Tj ET 1 g 81.441 598.519 75.079 -16.148 re f BT 10 0 0 10 106.4736 587.8959 Tm 0 g -0.0001 Tc (0.100)Tj ET 1 g 157.066 598.519 107.033 -16.148 re f BT 10 0 0 10 201.1313 587.8959 Tm 0 g (0.410)Tj ET 1 g 81.441 581.871 74.291 -16.149 re f BT 10 0 0 10 106.0795 571.2476 Tm 0 g (0.300)Tj ET 1 g 157.466 581.871 106.633 -16.149 re f BT 10 0 0 10 201.0545 571.2476 Tm 0 g (1.18)Tj ET 1 g 81.441 565.222 74.946 -16.148 re f BT 10 0 0 10 106.407 554.5992 Tm 0 g (0.500)Tj ET 1 g 156.399 565.222 107.7 -16.148 re f BT 10 0 0 10 200.5213 554.5992 Tm 0 g (1.91)Tj ET 1 g 81.441 548.574 74.291 -16.148 re f BT 10 0 0 10 106.0795 537.9509 Tm 0 g (0.700)Tj ET 1 g 156.132 548.574 107.967 -16.148 re f BT 10 0 0 10 200.388 537.9509 Tm 0 g (2.87)Tj ET 1 g 81.441 531.926 75.479 -16.149 re f BT 10 0 0 10 106.6735 521.3027 Tm 0 g (0.900)Tj ET 1 g 157.066 531.926 107.033 -16.149 re f BT 10 0 0 10 200.8547 521.3027 Tm 0 g (3.60)Tj ET 0.5 w 81.191 632.316 m 81.191 515.277 l 264.349 632.316 m 264.349 515.277 l 80.941 632.066 m 264.599 632.066 l 80.941 598.769 m 264.599 598.769 l 80.941 582.121 m 264.599 582.121 l 80.941 565.472 m 264.599 565.472 l 80.941 548.824 m 264.599 548.824 l 80.941 532.176 m 264.599 532.176 l 80.941 515.527 m 264.599 515.527 l 155.77 632.316 m 155.77 515.277 l S Q )]TJ T* [(37)-78( . The amplitude of the wave. . The greatest hit music of all time, with a '70s and '80s focus Classic Rock 1980 The year of Back in Black, The River, Blizzard of Oz, Zenyatta Mondatta, and Permanent Waves Classic Rock 1981 Rockin' the year Charles married Di, with Tom Petty, Journey, Stevie Nicks, and. . . 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The phrase which best describes a period on the periodic table is; a row of elements.. . B. light << /Count 9 /Kids [ 5 0 R 6 0 R ] /Type /Pages >> Find the partial pressure of carbon dioxide in a gas mixture with a total pressure of 30.4 kPa if the partial pressures of the other two gases in the mixture are 16.5 kPa and 3.7 kPa. )Tj -1.0909 -2.2727 TD 0.0278 Tw [(Notice. Ans- longitudinal waves 2.Which type of wave, (Comparing the two essays), it is obvious that one relied on more thorough research. (b) What is the period of the wave? . D: 4 s, A sound wave traveling eastward through air causes the air molecules to . These correspond to wavelengths ranging from 2.75 to 16.5 meters. . When the energy of a light, A. frequency B. period C. wavelength D. amplitude E. rarefaction This is frequency right? . . . The sound wave slows down and refracts. . A word or phrase that has an opposite meaning C. A word or phrase that has a similar meaning - My answer D. A word or, a word or phrase that describes a noun a word or phrase describing a verb a phrase containing figurative language in which the word expresses a different idea from its exact meaning a, Responses the length of a wave over a specified length of time the number of waves that pass a certain point within a certain time the distance that one cycle of a wave will travel, What fraction of a wavelength is this? . A wave fails to reach the surface of a material. D: 2.94 10^3 s, A beam of light has a wavelength of 4.5 x 10^7 meter in a vacuum. For a periodic wave, the period is the repeat time of the wave. . . endstream endobj 68 0 obj<>/ProcSet[/PDF/Text]/ExtGState<>>> endobj 69 0 obj<> endobj 70 0 obj<>stream . Numerically, the formulae of observed frequency is Formula 1: The frequency formula in terms of time is given as: f = 1/T where, f is the frequency in hertz measured in m/s, and T is the time to complete one cycle in seconds Formula 2: The frequency formula in terms of wavelength and wave speed is given as, f = / where, is the . . . . How does frequency apply to periodic waves? The medium itself goes nowhere. 5 0 obj . . C: ultraviolet waves . . How does the sound wave change when it transfers from the air to the persons eardrum? [Show all work, including the equation and)Tj T* 0.025 Tw [(substitution with units.] Which phrase best describes the sound)]TJ T* 0.025 Tw (waves produced by this oscillating tuning fork? )]TJ 1.413 -1.4783 TD [(\(1\))-500.1(a)0( 110-kg wrestler resting on a mat)]TJ 0 -1.1304 TD [(\(2\))-500.1(a)0( 90-kg man walking at 2 m/s)]TJ T* -0.0251 Tc [(\(3\))-475.1(a 70-kg long-distance runner traveling at 5 m/s)]TJ T* -0.0001 Tc [(\(4\))-500.1(a)0( 50-kg girl sprinting at 10 m/s)]TJ -1.428 -2.8696 TD -0.0151 Tc 0.2608 Tw [(16)-458.2(A child is riding on a merry-go-round. 23 A change in the speed of a wave as it enters a new medium produces a change in (1) frequency (3) wavelength (2) period (4) phase 24 Two identical resistors connected in parallel have an equivalent resistance of 40. ohms. 2) What is the wavelength of the wave? The sled is on a level frictionless surface. . . C: its wavelength . . . Which phrase best describes a periodic wave? . )]TJ T* [(41)-78( . D: sound waves, The amplitude of a sound wave is most closely related to the sound's Using a )Tj -15.6731 -1.1304 TD 0.1387 Tw (protractor and straightedge, on the diagram )Tj /F5 1 Tf 19.0522 0 TD -0.0003 Tc 0 Tw (in)Tj -19.0522 -1.1304 TD -0.0001 Tc 0.3301 Tw (your answer booklet,)Tj /F3 1 Tf 9.8187 0 TD (draw the reflected ray)Tj -9.8187 -1.1304 TD 0.025 Tw (from point )Tj /F5 1 Tf 4.6972 0 TD 0 Tc 0 Tw (P)Tj /F3 1 Tf 0.5559 0 TD -0.0001 Tc 0.025 Tw (. long wavelength and high frequency long wavelength and low frequency short wavelength and low frequency short wavelength and high frequency 3. 2) If the wavelength of a, the tree? . Responses A wave fails to reach the surface of a material. What do all the waves have in common? )10( )10(. 13 0 obj . A: light, only Frequency b. amplitude c. wavelength d. wave speed Is it C? 1. Which phrase describes a valence electron? )-883.7(Rater )-27.9(2)-144.6( . . 2 0 obj [)]TJ 9 0 0 9 391.9609 367.1809 Tm 0 Tc 0 Tw (1)Tj 11.5 0 0 11.5 396.4609 367.1809 Tm (])Tj -6.3066 -3.2174 TD -0.0001 Tc 0.2857 Tw [(57)-413.2(Exposure to ultraviolet radiation can damage)]TJ 1.413 -1.1304 TD 0.0863 Tw (skin. ( It is also known as oscillatory motion. . There are 7 such periods in the periodic table. 11 0 obj )]TJ -1.328 -2.4 TD 0.078 Tc -0.078 Tw [(2 . )]TJ /F5 1 Tf -14.1443 -2.1739 TD -0.0002 Tc 0 Tw (Directions)Tj /F3 1 Tf 4.5506 0 TD -0.0001 Tc 0.025 Tw (\(4863\): Record your answers in the spaces provided in your answer booklet. . . cm? A periodic wave is a periodic disturbance that moves through a medium. . . )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. . . Copy. The number of times a wave repeats B. . . 2) The equation of a wave along the x-axis is given as: cm = 3.4 sin (1.13 x - 0.75 t) in which is the displacement. . A wave bounces off the surface of a material. )]TJ 2.1818 -2.2727 TD -0.0002 Tc 0.0071 Tw [(When you have completed the examination, you must sign the statement printed)]TJ -2.1818 -1.1818 TD 0.0236 Tw [(at the end of your separate answer sheet, indicating that you had no unlawful knowl-)]TJ T* 0.045 Tw [(edge of the questions or answers prior to the examination and that you have neither)]TJ T* 0.0543 Tw [(given nor received assistance in answering any of the questions during the examina-)]TJ T* 0.0135 Tw [(tion. The diagram below represents a transverse wa- ter wave propagating toward the left. . . . )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. (4) 160 25 A tuning fork oscillates with a . B: increase . The oscillator that generates the wave completes 49.0 vibrations in 20.8 s. A given crest of the wave travels 402 cm along the rope in a time period of 14.9 s. What is the wavelength? . . . . )-1322(1)0(3)-200( . Atomic radii decrease from left to right across a period and decrease from top to bottom in a group. . )]TJ -1.328 -2.4 TD 0.078 Tc -0.078 Tw [(7 . 8. b C: Both types of waves propagate in a vacuum. The fundamental frequency of all harmonics is periodic, and the total number of harmonics is also periodic at that specific frequency. . A: 0.25 s Answer in units of Hz. energy only. Mechanical waves are categorized by their type of motion and fall into any of two categories: transverse or longitudinal. (a) For a lens with focal length f, find the smallest distance possible between the object and its real image. . . )]TJ 2.6087 -2 TD 0 Tw (Projectile )Tj /F5 1 Tf 4.4696 0 TD 0 Tc (A)Tj /F3 1 Tf 1.1578 0 TD -0.0001 Tc 0.2598 Tw (is launched horizontally at a)Tj -7.1926 -1.1304 TD 0.0422 Tw [(speed of 20. meters per second from the top of)]TJ T* 0.044 Tw [(a cliff and strikes a level surface below)73.9(, 3.0 sec-)]TJ T* 0.0565 Tw [(onds later)73.8(. . 4 0 obj } !1AQa"q2#BR$3br B: Both types of waves require a material medium for propagation. )]TJ 35.363 0 TD ( . . . I lost my book :(. The speed of propagation vw is the distance the wave travels in a given time, which is one wavelength in a time of one period. The wavelength decreases while frequency increases. 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