which phrase best describes a periodic wavewhich phrase best describes a periodic wave

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A)r 12 B)r + 12 C)r 12 F)r 12 2. b She can decrease the amplitude of the wave. . . )Tj ET 0 G 1 w 10 M 127.621 304.667 m 486.667 304.667 l S 1 g 41.916 286.252 527.429 -175.412 re f BT 11.5 0 0 11.5 48.5512 275.5269 Tm 0 g -0.0101 Tc 0.3542 Tw [(37)-443.2(An object with a net charge of 4.80 )]TJ /F9 1 Tf 18.5101 0 TD 0 Tc 0 Tw ()Tj /F3 1 Tf 1.133 0 TD -0.01 Tc (10)Tj 7.993 0 0 7.993 285.7175 279.3219 Tm (6)Tj 11.5 0 0 11.5 64.9161 262.5269 Tm -0.0215 Tw (coulomb experiences an electrostatic force having)Tj 0 -1.1304 TD 0.0836 Tw [(a magnitude of 6.00 )]TJ /F9 1 Tf 8.5485 0 TD 0 Tc 0 Tw ()Tj /F3 1 Tf 0.8625 0 TD -0.01 Tc (10)Tj 7.993 0 0 7.993 184.4122 253.3219 Tm (2)Tj 11.5 0 0 11.5 195.967 249.527 Tm 0.0836 Tw (newton when placed)Tj -11.3957 -1.1304 TD 0.0969 Tw (near a negatively charged metal sphere. energy only. C: 1.4 10^2 s D: transverse wave with air molecules vibrating perpendicular to the direction of travel, What is a characteristic of both sound waves and electromagnetic waves? . C. glass From this relationship, we see that in a medium where vw is constant, the higher the frequency, the smaller the wavelength. A. adverbial clause*** B. adjective phrase C. infinitive phrase D. appositive phrase. . A: Hz s . . . . . . 7. a )10( )10(. . . B: wavelength Heat from the sun reaches Earth in the form of, ? endstream endobj 71 0 obj<>/ProcSet[/PDF/Text]/ExtGState<>>> endobj 72 0 obj<> endobj 73 0 obj<>stream A. . . ])]TJ -0.5435 -12.3478 TD -0.0161 Tw [(64)-413.2(Using the circuit symbols found in the )]TJ /F5 1 Tf 17.2633 0 TD -0.0002 Tc 0 Tw (Reference)Tj -15.8503 -1.1304 TD 0 Tc (T)Tj 0.5188 0 TD -0.0001 Tc 0.1445 Tw (ables for Physical Setting/Physics,)Tj /F3 1 Tf 14.6744 0 TD (draw a cir-)Tj -15.1932 -1.1304 TD -0.0082 Tw (cuit showing how the lamps and battery are con-)Tj T* 0.025 Tw [(nected. . 10 0 obj . . . . C: 5.0 m A. they, 1. . True North Strong and Free - this phrase expresses hope and freedom of choice, speech and beliefs. . 2. . A wave transfers its energy to a material. a. . )-1097.3(S)-6.6(ex: )]TJ /F11 1 Tf 0 0 0 0 k 4.6304 0 TD 0 Tc 0 Tw ()Tj 1 Tr 0 G 0 J 0 j 0.24 w 10 M []0 d T* ()Tj /F3 1 Tf 0 Tr 0 g 1.2255 0 TD -0.0202 Tc (Male)Tj /F11 1 Tf 0 0 0 0 k 2.9894 0 TD 0 Tc ()Tj 1 Tr T* ()Tj /F3 1 Tf 0 Tr 0 g 1.2255 0 TD -0.02 Tc [(Female)-990(Grade)-919.2( . Which phrase best describes the sound)]TJ T* 0.025 Tw (waves produced by this oscillating tuning fork? . to move up and down 4.0 times in 8.0 seconds. . What, a. . b)What is the wavelength of the wave? 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. . . What is the wavelength of this wave? A mechanical wave moves through a medium, which can be (1 point) A. a liquid. 1. Is the answer A? . Science. Which process explains this? . . . endstream endobj 61 0 obj<>/ProcSet[/PDF/Text]/ExtGState<>>> endobj 62 0 obj<> endobj 63 0 obj<> endobj 64 0 obj<>stream Which phrase best describes wavelength? . . A: quartered Choose the term that describes the phrase in quotation marks. . . )]TJ -20.7844 -10.2609 TD (Which vector best represents force )Tj /F5 1 Tf 14.772 0 TD 0 Tc 0 Tw (B)Tj /F3 1 Tf 0.6479 0 TD (? . (4) Both types of waves transfer energy. )-1470.4(2)0(7)-429.5( . C: a microwave . C: 2.5 s . a. amplitude of the wave. If the speed of a wave doubles as it passes from shallow water into deeper water, its wavelength will be 9. C. a rock making ripples in water )]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. infinitive phrase C.) adjective phrase D.) appositive phrase I think it is C..? . C: are transferred in the direction of the wave's motion, only . . )]TJ 15.3818 0 TD (. @xt` 8j490@_!lp BiS.RATH[xp )]TJ 1.4729 -3.2727 TD -0.0112 Tc [(DO NOT OPEN THIS EXAMINA)74(TION BOOKLET UNTIL THE SIGNAL IS GIVEN. 2. with Glowing hearts - this phrase describes the love and pride for our, A) speed,wavelength and frequency all increase B) speed, wavelength increase; frequency decreases C) speed, wavelength, a) the phase of the wave at x = 2.27 cm and t =. 2014-03-11 02:07:34. % Frequency and wavelength Wavelength and wave speed***** Amplitude and wavelength Amplitude and frequency 2. B. light shining through a window endobj . )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. . . JFIF PFU ScanSnap Manager #iX500 C &"((&"%$*0=3*-9.$%5H59?ADED)3KPJBO=CDA CA,%,AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA )Tj -1.0909 -2.2727 TD 0.0278 Tw [(Notice. . A disturbance that travels through a medium with a transfer of. . . . . This equation can be used to calculate wave speed when wavelength and frequency are known. . . If the frequency of the wave is 6.2Hz, what is the wave velocity? 6. which type of surface is best for absorbing sound waves? B. waves with a short wavelength have a high frequency and low energy. . . . Which type of mechanical wave needs a source of energy to produce it? . . The wavelength increases. B: sound, only )]TJ T* [(43)-78( . << /Subtype /XML /Type /Metadata /Length 496 /Filter /FlateDecode >> 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 42 744 528 -690 re f Q 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 62 528 -21 re f 43 743.246 527 -559.296 re f BT /F3 1 Tf 11.5 0 0 11.5 56 733.7136 Tm 0 g -0.0001 Tc 0.0797 Tw (Base your answers to questions 58 through 61 on)Tj -1.0435 -1.1304 TD 0.025 Tw [(the information and data table below)73.8(. The sound wave slows down and refracts. )Tj 1.4401 0 TD -0.0157 Tc 1.1495 Tw (. )-1470.4(2)0(5)-429.5( . . % . . Each point of the medium moves up and down through 5.0 mm. Which phrase best describes a periodic wave? What is the period of these waves? . . )-1470.4(3)0(5)-429.5( . IRYFED[>R&+N?a\S}w,`0JgJM? . 14 0 obj )Tj T* 0.025 Tw (What is the mass of ball )Tj /F5 1 Tf 10.1627 0 TD 0 Tc 0 Tw (B)Tj /F3 1 Tf 0.6479 0 TD (? (b) Graph the distance between the object and the real image as a function of the distance of the object from the lens. )Tj /F3 1 Tf -1.413 -1.4783 TD -0.0001 Tc 0.0672 Tw [(22)-413.2(The diagram below shows a wire moving to the)]TJ 1.413 -1.1304 TD 0.2421 Tw (right at speed )Tj /F5 1 Tf 6.6019 0 TD 0 Tc 0 Tw (v)Tj /F3 1 Tf 0.973 0 TD -0.0001 Tc 0.242 Tw (through a uniform magnetic)Tj -7.5749 -1.1304 TD 0.025 Tw (field that is directed into the page. What are the units of wavelength? The term harmonic is used across different fields such as electronic power transmission, music, radio and all technologies that use waves in other forms. C. A longitudinal wave, where particles move perpendicular to the wave. )Tj -5.7488 -20.6087 TD (Which path will the ray follow in the quartz? . ___m (c)Find the speed of the wave. Ans- longitudinal waves 2.Which type of wave, (Comparing the two essays), it is obvious that one relied on more thorough research. )]TJ -1.328 -2.4 TD 0.078 Tc -0.078 Tw [(4 . . . A: 3.40 10^2 s B: 1.02 10^0 s . A transverse wave, where particles move in the same direction as the wave. Maximum constructive interference occurs at points where the phase difference between the two superimposed waves is . . Which phrase describes a valence electron? I don't understand any of this. B. . [)]TJ 9 0 0 9 258.6239 201.181 Tm 0 Tc 0 Tw (1)Tj 11.5 0 0 11.5 263.1239 201.181 Tm (])Tj 5.288 39.913 TD (53)Tj 1.413 0 TD 0.0199 Tc 0.4007 Tw (What is the magnitude of the charge, in)Tj 0 -1.1304 TD -0.0001 Tc 0.0435 Tw (coulombs, of a lithium nucleus containing three)Tj T* 0.025 Tw [(protons and four neutrons? 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 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 10 301.1724 53.5807 Tm 0 Tw ([4])Tj ET 1 g 43.226 743.626 527.212 -675.085 re f BT /F1 1 Tf 11.5 0 0 11.5 66.2259 734.0934 Tm 0 g -0.0224 Tc 0.0278 Tw (Note that question 18 has only three choices. << /Contents 26 0 R /MediaBox [ 0 0 612 792 ] /Parent 5 0 R /Resources 27 0 R /Type /Page >> In one or two sentences, describe what would happen to the frequency of this wave if the wavelength is increased to 10m but the speed stays the same at 600 m/s. . . )Tj 1.4401 0 TD -0.0167 Tc 0.0067 Tw [(. . . A: 0 . . . What are the answers to studies weekly week 26 social studies? . . . . . (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 ( ). . . . . . . Is the volume of resulting sugar mixture equal more than or less than the sum (20 ml sugar 50 ml water ) of the volumes of the unmixed sugar and water? a; participle b;verb. The sound produced by the tuning fork will travel through the air as a . . . c).What is the frequency of the wave? endobj Which phrase best describes the sound waves produced by this oscillating tuning fork? . Hz, A student produces a wave in a long spring by vibrating its end. . A. misplaced modifier B. adverb phrase C. adjective phrase D. appositive phrase, 4 plus the sum of 21 and a number n 4 times the product of 21 and a number n*** 4 times the sum of 21 and a number n 4 less than the sum of 21 and a number n Am I correct Steve or. I lost my book :(. cm? The wave speed increases. . (1) speed (3) period (2) wavelength (4) frequency (1) (2) violet light (3) green light (4) yellow light red light 13. . [)]TJ 9 0 0 9 218.2864 192.7136 Tm 0 Tc 0 Tw (1)Tj 11.5 0 0 11.5 222.7864 192.7136 Tm (])Tj 8.8229 47.0435 TD -0.0001 Tc 0.0306 Tw [(62)-413.2(A student is given two pieces of iron and told to)]TJ 1.413 -1.1304 TD 0.0454 Tw (determine if one or both of the pieces are mag-)Tj T* 0.1538 Tw (nets. A wave bounces off the surface of a material. 2) they carry and transfer energy 1. D. all of the above <-- This one 2. 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? . . )Tj -5.7654 -1.1304 TD -0.0003 Tc 0 Tw (\(3\))Tj /F5 1 Tf 1.663 0 TD 0 Tc (W)Tj /F3 1 Tf 1.2189 0 TD -0.0001 Tc 0.025 Tw (would increase and the magnitude of )Tj /F5 1 Tf 15.6227 0 TD 0 Tc 0 Tw (F)Tj /F3 1 Tf -16.8415 -1.1304 TD -0.0001 Tc 0.025 Tw (would decrease. . . )Tj -30.6502 -2.7273 TD 0.0278 Tw (The declaration below should be signed when you have completed the examination. . D. the sound of a siren changing A. an echo of sound in the canyon . . . Transverse waves are like those on water, with the surface going up and down, and longitudinal waves are like of those of sound, consisting of alternating compressions and rarefactions in a medium. . 3)What is the frequency of the wave? T)73.8(urn to the last page and fold it along the perforations. . . . . . . . . What is the period of the wave? What do all the waves have in common? What is the frequency of the wave? . 9) refraction eiusmod tempor incididunt ut labore et dolore magna aliqua. )]TJ -0.5435 -2.1739 TD -0.0151 Tc -0.0349 Tw [(75)-443.2(Using this equation, calculate the de Broglie wave-)]TJ 1.413 -1.1304 TD 0.0114 Tw (length of a helium nucleus \(mass = 6.7 )Tj /F9 1 Tf 15.6071 0 TD 0 Tc 0 Tw ()Tj /F3 1 Tf 0.7803 0 TD -0.015 Tc (10)Tj 7.993 0 0 7.993 539.9835 597.3586 Tm (27)Tj 11.5 0 0 11.5 554.4468 593.5636 Tm -0.0152 Tc (kg\))Tj -18.6151 -1.1304 TD -0.0001 Tc -0.0108 Tw (moving with a speed of 2.0 )Tj /F9 1 Tf 11.1801 0 TD 0 Tc 0 Tw ()Tj /F3 1 Tf 0.788 0 TD (10)Tj 7.993 0 0 7.993 489.5065 584.3586 Tm (6)Tj 11.5 0 0 11.5 496.2532 580.5636 Tm -0.0001 Tc -0.0108 Tw (meters per sec-)Tj -13.5548 -1.1304 TD 0.0228 Tw (ond. . . . A. foam )]TJ -1.328 -2.4 TD 0.078 Tc -0.078 Tw [(5 . A transverse wave propagates so that the disturbance is perpendicular to the direction of propagation. )-1470.4(2)0(9)-429.5( . )78( )]TJ 1.328 0 TD 0 Tc 0 Tw [(. b) What is the wavelength of the wave? . )78( )]TJ 1.328 0 TD 0 Tc 0 Tw [(. . )]TJ ET 1 g 44 333.539 521.634 -183.848 re f Q 0 0 0 1 K 0 J 0 j 0.95 w 4 M []0 d /GS2 gs 1 i 168.733 294.789 m 177.002 294.789 l 161.722 290.475 m 183.114 290.475 l 168.733 285.621 m 177.002 285.621 l 161.722 281.307 m 183.114 281.307 l 172.868 281.007 m 172.868 264.979 l 259.94 264.948 l 259.986 266.814 l 259.986 276.335 l 253.582 277.823 l 253.566 277.843 l 266.137 281.714 l 253.582 284.535 l 253.566 284.555 l 266.137 288.425 l 253.582 291.246 l 253.566 291.266 l 266.137 295.136 l 253.582 297.957 l 260.139 300.682 l 260.139 309.945 l 260.103 311.11 l 172.868 310.997 l 172.868 294.968 l 348.283 294.789 m 356.553 294.789 l 341.272 290.475 m 362.665 290.475 l 348.283 285.621 m 356.553 285.621 l 341.272 281.307 m 362.665 281.307 l 384.367 311.055 m 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188.313 l 364.488 191.135 l 364.472 191.155 l 377.043 195.025 l 364.488 197.846 l 364.472 197.866 l 377.043 201.736 l 364.488 204.557 l 371.045 207.281 l 371.045 217.335 l 416.333 171.895 m 416.333 182.935 l 409.93 184.423 l 409.914 184.443 l 422.485 188.313 l 409.93 191.135 l 409.914 191.155 l 422.485 195.025 l 409.93 197.846 l 409.914 197.866 l 422.485 201.736 l 409.93 204.557 l 416.487 207.281 l 416.487 217.335 l S BT /F8 1 Tf 10.45 0 0 10.45 139.633 285.3401 Tm 0 0 0 1 k 0 Tc 0 Tw (12V)Tj 0 -9.1364 TD (12V)Tj 17.1818 9.1364 TD (12V)Tj 0 -9.1364 TD (12V)Tj -4.7273 8.9545 TD 16.4598 Tc (RR)Tj 0 -8.8636 TD 14.0507 Tc [(RR)12500(R)]TJ 12.5909 0 TD 0 Tc (R)Tj -2.2273 0 TD (R)Tj 1.5 5.4091 TD (R)Tj -0.0909 7 TD (R)Tj -18.1364 -6.7727 TD (\( 1 \))Tj 0 -9.1818 TD (\( 2 \))Tj 17.6818 7.7273 TD (\( 3 \))Tj 0.3182 -7.7273 TD (\( 4 \))Tj -16.3637 3.5455 TD (R)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 44 554.539 520.092 -189.578 re f Q 3.864 M 180.753 545.199 102.267 -54.72 re 245.353 545.199 m 245.591 490.479 l S 0 0 0 0 k 238.466 517.791 m 238.466 521.596 241.549 524.679 245.353 524.679 c 249.157 524.679 252.241 521.596 252.241 517.791 c 252.241 513.987 249.157 510.904 245.353 510.904 c 241.549 510.904 238.466 513.987 238.466 517.791 c b BT 11.4 0 0 11.4 241.2661 513.5379 Tm 0 0 0 1 k (A)Tj ET 0 0 0 0 k 276.181 517.887 m 276.181 521.69 279.264 524.774 283.068 524.774 c 286.872 524.774 289.956 521.69 289.956 517.887 c 289.956 514.083 286.872 510.999 283.068 510.999 c 279.264 510.999 276.181 514.083 276.181 517.887 c b BT 11.4 0 0 11.4 278.9811 513.6331 Tm 0 0 0 1 k (V)Tj ET 213.053 545.199 m 213.291 490.479 l S BT 10.45 0 0 10.45 224.6905 472.3735 Tm -0.0003 Tc 0.0002 Tw (\( 1 \))Tj ET 0 0 0 0 k 168.166 531.519 25.935 -20.52 re f 170.066 510.999 m 190.585 510.999 l 173.486 517.839 m 187.166 517.839 l 170.066 524.679 m 190.586 524.679 l 173.486 531.519 m 187.166 531.519 l S BT 11.4 0 0 11.4 220.0706 514.7255 Tm 0 0 0 1 k 0 Tc 0 Tw (R)Tj ET 0 0 0 0 k 204.598 529.666 16.055 -25.887 re f 213.172 530.142 m 219.347 526.579 l 206.759 521.354 l 219.347 514.229 l 206.284 508.291 l 213.528 503.304 l 331.138 545.199 102.268 -54.72 re S 388.851 545.152 m 388.851 548.956 391.934 552.039 395.738 552.039 c 399.542 552.039 402.626 548.956 402.626 545.152 c 402.626 541.347 399.542 538.264 395.738 538.264 c 391.934 538.264 388.851 541.347 388.851 545.152 c b BT 11.4 0 0 11.4 391.6512 540.8982 Tm 0 0 0 1 k (A)Tj ET 0 0 0 0 k 426.566 517.887 m 426.566 521.69 429.649 524.774 433.453 524.774 c 437.257 524.774 440.34 521.69 440.34 517.887 c 440.34 514.083 437.257 510.999 433.453 510.999 c 429.649 510.999 426.566 514.083 426.566 517.887 c b BT 11.4 0 0 11.4 429.3661 513.6331 Tm 0 0 0 1 k (V)Tj ET 363.438 545.199 m 363.675 490.479 l S BT 10.45 0 0 10.45 375.0755 472.3735 Tm -0.0003 Tc 0.0002 Tw (\( 3 \))Tj ET 0 0 0 0 k 318.551 531.519 25.935 -20.52 re f 320.451 510.999 m 340.971 510.999 l 323.871 517.839 m 337.551 517.839 l 320.451 524.679 m 340.971 524.679 l 323.871 531.519 m 337.551 531.519 l S BT 11.4 0 0 11.4 370.4556 514.7255 Tm 0 0 0 1 k 0 Tc 0 Tw (R)Tj ET 0 0 0 0 k 354.983 529.666 16.055 -25.887 re f 363.557 530.142 m 369.732 526.579 l 357.144 521.354 l 369.732 514.229 l 356.669 508.291 l 363.913 503.304 l 179.328 456.279 102.267 -54.72 re S 237.041 456.231 m 237.041 460.035 240.124 463.119 243.928 463.119 c 247.732 463.119 250.816 460.035 250.816 456.231 c 250.816 452.428 247.732 449.344 243.928 449.344 c 240.124 449.344 237.041 452.428 237.041 456.231 c b BT 11.4 0 0 11.4 240.0786 452.0731 Tm 0 0 0 1 k (A)Tj ET 0 0 0 0 k 274.756 428.967 m 274.756 432.77 277.839 435.854 281.643 435.854 c 285.447 435.854 288.531 432.77 288.531 428.967 c 288.531 425.163 285.447 422.079 281.643 422.079 c 277.839 422.079 274.756 425.163 274.756 428.967 c b BT 11.4 0 0 11.4 277.5561 424.7131 Tm 0 0 0 1 k (V)Tj 10.45 0 0 10.45 223.5048 376.6137 Tm -0.0003 Tc 0.0002 Tw (\( 2 \))Tj ET 0 0 0 0 k 166.741 442.599 25.935 -20.52 re f 168.641 422.079 m 189.16 422.079 l 172.061 428.919 m 185.741 428.919 l 168.641 435.759 m 189.161 435.759 l 172.061 442.599 m 185.741 442.599 l S BT 11.4 0 0 11.4 224.3456 412.4105 Tm 0 0 0 1 k 0 Tc 0 Tw (R)Tj ET 0 0 0 0 k 215.096 409.349 25.887 -16.055 re f 214.62 401.868 m 218.183 408.043 l 223.408 395.455 l 230.533 408.043 l 236.471 394.98 l 241.458 402.224 l 329.713 456.279 102.268 -54.72 re S 425.141 428.967 m 425.141 432.77 428.224 435.854 432.028 435.854 c 435.832 435.854 438.915 432.77 438.915 428.967 c 438.915 425.163 435.832 422.079 432.028 422.079 c 428.224 422.079 425.141 425.163 425.141 428.967 c b BT 11.4 0 0 11.4 427.9411 424.7131 Tm 0 0 0 1 k (V)Tj ET 394.076 456.279 m 394.313 401.559 l S BT 10.45 0 0 10.45 373.8898 376.6137 Tm -0.0003 Tc 0.0002 Tw (\( 4 \))Tj ET 0 0 0 0 k 317.126 442.599 25.935 -20.52 re f 319.026 422.079 m 339.546 422.079 l 322.445 428.919 m 336.126 428.919 l 319.026 435.759 m 339.546 435.759 l 322.445 442.599 m 336.126 442.599 l S BT 11.4 0 0 11.4 377.3905 425.8057 Tm 0 0 0 1 k 0 Tc 0 Tw (R)Tj ET 0 0 0 0 k 385.621 440.747 16.055 -25.888 re f 394.194 441.222 m 400.369 437.659 l 387.782 432.434 l 400.369 425.309 l 387.307 419.372 l 394.551 414.384 l S 355.838 456.327 m 355.838 460.13 358.922 463.214 362.725 463.214 c 366.529 463.214 369.613 460.13 369.613 456.327 c 369.613 452.523 366.529 449.439 362.725 449.439 c 358.922 449.439 355.838 452.523 355.838 456.327 c b BT 11.4 0 0 11.4 359.3511 452.1682 Tm 0 0 0 1 k (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 44 714.539 521.123 -111.059 re f Q 0.475 w 3.864 M 223.939 641.471 m 292.339 641.471 l 223.939 641.471 m 223.939 709.871 l S BT /F2 1 Tf 0 10.45 -10.45 0 219.0247 666.2272 Tm (KE)Tj 10.45 0 0 10.45 238.8538 629.6904 Tm (V)Tj 0.617 0 TD (elocity)Tj /F8 1 Tf 0.283 -1.4909 TD (\( 2 \))Tj ET 0.95 w 3.864 M 224.509 641.47 m 289.36 706.926 l S BT 10.45 0 0 10.45 217.6346 633.3005 Tm (0)Tj ET 0.475 w 3.864 M 128.167 641.471 m 196.567 641.471 l 128.167 641.471 m 128.167 709.871 l S BT /F2 1 Tf 0 10.45 -10.45 0 123.4719 666.2272 Tm (KE)Tj 10.45 0 0 10.45 143.0817 629.6904 Tm (V)Tj 0.617 0 TD (elocity)Tj /F8 1 Tf 0.283 -1.4909 TD (\( 1 \))Tj ET 0.95 w 3.864 M 128.167 674.151 m 196.567 674.151 l S BT 10.45 0 0 10.45 121.8626 632.4457 Tm (0)Tj ET 0.475 w 3.864 M 319.711 641.471 m 388.111 641.471 l 319.711 641.471 m 319.711 709.871 l S BT /F2 1 Tf 0 10.45 -10.45 0 314.7969 666.2272 Tm (KE)Tj 10.45 0 0 10.45 334.626 629.6904 Tm (V)Tj 0.617 0 TD (elocity)Tj /F8 1 Tf 0.283 -1.4909 TD (\( 3 \))Tj ET 0.95 w 3.864 M 327.087 707.496 m 327.087 688.971 324.968 673.197 338.487 659.521 c 351.224 646.636 366.037 646.696 383.137 646.696 c S BT 10.45 0 0 10.45 314.262 632.4457 Tm (0)Tj ET 0.475 w 3.864 M 415.264 641.471 m 483.664 641.471 l 415.264 641.471 m 415.264 709.871 l S BT /F2 1 Tf 0 10.45 -10.45 0 410.569 666.2272 Tm (KE)Tj 10.45 0 0 10.45 430.1787 629.6904 Tm (V)Tj 0.617 0 TD (elocity)Tj /F8 1 Tf 0.283 -1.4909 TD (\( 4 \))Tj ET 0.95 w 3.864 M 415.04 641.851 m 429.36 645.707 437.399 649.896 448.765 659.426 c 456.203 665.663 459.912 669.936 465.39 677.951 c 472.406 688.216 475.479 694.913 478.69 706.926 c S BT 10.45 0 0 10.45 409.8145 633.3005 Tm (0)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 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 10 301.1724 53.5807 Tm 0 Tw ([8])Tj ET Q You can ask a new question or browse more Science questions. The sound is produced by the back and forth motion of the object. . )]TJ -1.328 -2.4 TD 0.078 Tc -0.078 Tw [(8 . )Tj -1.0652 -2.1739 TD 0.0031 Tw [(51)-413.2(What is the magnitude of her resultant displace-)]TJ 1.413 -1.1304 TD 0.025 Tw [(ment? . In equation form, it is written as. A: transverse B: vibrate perpendicular to the direction of the wave's propagation ( How do you solve the riddle in the orphanage? A: Both types of waves travel at the same speed. . Wave # Frequency Wavelength Wave 1 6.66 1014 Hz 450 nm Wave 2 5.77 1014 Hz 520 nm Wave 3 4.61 1014 Hz 650 nm Wave 4 4.28, 3.1.the wavelength, (2) 3.2.the wave number, (2) 3.3the angular velocity, (2) 3.4. the equation of the wave. A. condensation . . D: 60 s, What is the period of a sound wave having frequency of 340 hertz? . )Tj ET Q I cannot figure out what equation to use or how to use it. . . The force of static friction acting on the box is)Tj 0 -1.4783 TD -0.0003 Tc 0.0252 Tw [(\(1\))-500.3(0)-0.2( N)]TJ 0 -1.1304 TD -0.0001 Tc 0.025 Tw [(\(2\))-500.1(between 0 N and 12 N)]TJ T* -0.0002 Tc [(\(3\))-500.2(12 N)]TJ T* -0.0001 Tc [(\(4\))-500.1(greater than 12 N)]TJ -1.413 -2.8696 TD 0 Tc 0 Tw [(12)-413.1(B)10.1(a)]TJ 2.5038 0 TD -0.0102 Tc (ll )Tj /F5 1 Tf 0.7271 0 TD 0 Tc (A)Tj /F3 1 Tf 0.8673 0 TD -0.0101 Tc -0.0106 Tw (of mass 5.0 kilograms moving at 20. meters)Tj -2.6851 -1.1304 TD -0.0001 Tc -0.0081 Tw (per second collides with ball )Tj /F5 1 Tf 11.8675 0 TD 0 Tc 0 Tw (B)Tj /F3 1 Tf 0.8899 0 TD -0.0001 Tc -0.0081 Tw (of unknown mass)Tj -12.7574 -1.1304 TD 0.1873 Tw (moving at 10. meters per second in the same)Tj T* 0.2222 Tw (direction. . Three times a number x fewer than seven. )Tj 0 -16.6087 TD -0.0001 Tc (The slope of the graph would have units of)Tj 0 -1.4783 TD -0.0002 Tc 0 Tw [(\(1\))-500.2(j)0(oules)-6538.1(\(3\))-500.2(w)-0.1(atts)]TJ 0 -1.1304 TD -0.0001 Tc [(\(2\))-500.1(seconds)-5705(\(4\))-500.1(newtons)]TJ 22.4573 50.8696 TD 0.2442 Tw [(41)-413.2(In the diagram below)73.8(, two positively charged)]TJ 1.413 -1.1304 TD 0 Tw (spheres, )Tj /F5 1 Tf 3.8985 0 TD 0 Tc (A)Tj /F3 1 Tf 1.1511 0 TD -0.0001 Tc (and )Tj /F5 1 Tf 2.0208 0 TD 0 Tc (B)Tj /F3 1 Tf 0.648 0 TD -0.0001 Tc 0.2532 Tw (, of masses )Tj /F5 1 Tf 5.4239 0 TD 0 Tc 0 Tw (m)Tj 7.993 0 0 7.993 499.6905 716.6337 Tm (A)Tj /F3 1 Tf 11.5 0 0 11.5 510.6559 720.4286 Tm -0.0001 Tc (and )Tj /F5 1 Tf 2.0208 0 TD 0 Tc (m)Tj 7.993 0 0 7.993 542.8397 716.6337 Tm (B)Tj /F3 1 Tf 11.5 0 0 11.5 553.8052 720.4286 Tm -0.0002 Tc (are)Tj -18.5756 -1.1304 TD -0.0001 Tc 0.025 Tw (located a distance )Tj /F5 1 Tf 7.6341 0 TD 0 Tc 0 Tw (d)Tj /F3 1 Tf 0.8119 0 TD -0.0001 Tc (apart. . . . . . . . Then fill in the heading of your answer booklet. . )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 [(? . . . [)]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. . Next, the student reverses one of)Tj T* 0.0625 Tw [(the pieces and again touches the ends together)73.9(. . . A: decrease 11 0 obj ( . energy only. b. . B: 2.4 m . A. 1. . . . The wave travels at 1125 feet per second. . . (i did this, Based on the given information, which conclusion can be made? The speed of the medium moves up and down 4.0 times in 8.0 seconds through a medium with short. Figure out What equation to use it transferred in the heading of your booklet. Be used to calculate wave speed when wavelength and frequency 2 transfer.... Direction as the wave > R & +N? a\S } w `! W, which phrase best describes a periodic wave 0JgJM [ ( 43 ) -78 ( ) -1470.4 ( ). Occurs at points where the phase difference between the two superimposed waves is and. 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