Pendulum clocks really need to be designed for a location. Wanted: Determine the period (T) of the pendulum if the length of cord (l) is four times the initial length. For the simple pendulum: for the period of a simple pendulum. We move it to a high altitude. Webpendulum is sensitive to the length of the string and the acceleration due to gravity. 0.5 All Physics C Mechanics topics are covered in detail in these PDF files. Simple Harmonic Motion <> /LastChar 196 That's a question that's best left to a professional statistician. First method: Start with the equation for the period of a simple pendulum. Get answer out. Solution: Once a pendulum moves too fast or too slowly, some extra time is added to or subtracted from the actual time. A simple pendulum with a length of 2 m oscillates on the Earths surface. 44 0 obj <> /FirstChar 33 How about some rhetorical questions to finish things off? 7 0 obj 39 0 obj /FirstChar 33 <>>>
/Type/Font << /FontDescriptor 29 0 R /MediaBox [0 0 612 792] WebAssuming nothing gets in the way, that conclusion is reached when the projectile comes to rest on the ground. 675.9 1067.1 879.6 844.9 768.5 844.9 839.1 625 782.4 864.6 849.5 1162 849.5 849.5 frequency to be doubled, the length of the pendulum should be changed to 0.25 meters. endstream Solution: The period of a simple pendulum is related to its length $\ell$ by the following formula \[T=2\pi\sqrt{\frac{\ell}{g}}\] Here, we wish $T_2=3T_1$, after some manipulations we get \begin{align*} T_2&=3T_1\\\\ 2\pi\sqrt{\frac{\ell_2}{g}} &=3\times 2\pi\sqrt{\frac{\ell_1}{g}}\\\\ \sqrt{\ell_2}&=3\sqrt{\ell_1}\\\\\Rightarrow \ell_2&=9\ell_1 \end{align*} In the last equality, we squared both sides. << 460 664.4 463.9 485.6 408.9 511.1 1022.2 511.1 511.1 511.1 0 0 0 0 0 0 0 0 0 0 0 %PDF-1.5 570 517 571.4 437.2 540.3 595.8 625.7 651.4 277.8] 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 706.4 938.5 877 781.8 754 843.3 815.5 877 815.5 Tell me where you see mass. What would be the period of a 0.75 m long pendulum on the Moon (g = 1.62 m/s2)? 874 706.4 1027.8 843.3 877 767.9 877 829.4 631 815.5 843.3 843.3 1150.8 843.3 843.3 consent of Rice University. The movement of the pendula will not differ at all because the mass of the bob has no effect on the motion of a simple pendulum. 323.4 569.4 569.4 569.4 569.4 569.4 569.4 569.4 569.4 569.4 569.4 569.4 323.4 323.4 << /FontDescriptor 11 0 R 15 0 obj WebSimple Pendulum Calculator is a free online tool that displays the time period of a given simple. Examples of Projectile Motion 1. We recommend using a :)kE_CHL16@N99!w>/Acy
rr{pk^{?; INh' 812.5 875 562.5 1018.5 1143.5 875 312.5 562.5] Substitute known values into the new equation: If you are redistributing all or part of this book in a print format, 3 Nonlinear Systems WebMass Pendulum Dynamic System chp3 15 A simple plane pendulum of mass m 0 and length l is suspended from a cart of mass m as sketched in the figure. This PDF provides a full solution to the problem. l(&+k:H uxu
{fH@H1X("Esg/)uLsU. A7)mP@nJ 277.8 500 555.6 444.4 555.6 444.4 305.6 500 555.6 277.8 305.6 527.8 277.8 833.3 555.6 Websector-area-and-arc-length-answer-key 1/6 Downloaded from accreditation. Length and gravity are given. ollB;%
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s%EbOq#!!!h#']y\1FKW6 /Widths[295.1 531.3 885.4 531.3 885.4 826.4 295.1 413.2 413.2 531.3 826.4 295.1 354.2 Use the pendulum to find the value of gg on planet X. 9 0 obj 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 663.6 885.4 826.4 736.8 ECON 102 Quiz 1 test solution questions and answers solved solutions. For small displacements, a pendulum is a simple harmonic oscillator. g 680.6 777.8 736.1 555.6 722.2 750 750 1027.8 750 750 611.1 277.8 500 277.8 500 277.8 324.7 531.3 590.3 295.1 324.7 560.8 295.1 885.4 590.3 531.3 590.3 560.8 414.1 419.1 Let's do them in that order. Ze}jUcie[. Solve the equation I keep using for length, since that's what the question is about. >> Now, if we can show that the restoring force is directly proportional to the displacement, then we have a simple harmonic oscillator. 750 758.5 714.7 827.9 738.2 643.1 786.2 831.3 439.6 554.5 849.3 680.6 970.1 803.5 if(typeof ez_ad_units != 'undefined'){ez_ad_units.push([[300,250],'physexams_com-large-mobile-banner-2','ezslot_8',133,'0','0'])};__ez_fad_position('div-gpt-ad-physexams_com-large-mobile-banner-2-0'); Problem (10): A clock works with the mechanism of a pendulum accurately. 24/7 Live Expert. Numerical Problems on a Simple Pendulum - The Fact Factor /Subtype/Type1 314.8 787 524.7 524.7 787 763 722.5 734.6 775 696.3 670.1 794.1 763 395.7 538.9 789.2 The heart of the timekeeping mechanism is a 310kg, 4.4m long steel and zinc pendulum. << /Length 2854 This is the video that cover the section 7. solution One of the authors (M. S.) has been teaching the Introductory Physics course to freshmen since Fall 2007. Solution: As stated in the earlier problems, the frequency of a simple pendulum is proportional to the inverse of the square root of its length namely $f \propto 1/\sqrt{\ell}$. The period of a simple pendulum with large angle is presented; a comparison has been carried out between the analytical solution and the numerical integration results. 472.2 472.2 472.2 472.2 583.3 583.3 0 0 472.2 472.2 333.3 555.6 577.8 577.8 597.2 A pendulum is a massive bob attached to a string or cord and swings back and forth in a periodic motion. 708.3 795.8 767.4 826.4 767.4 826.4 0 0 767.4 619.8 590.3 590.3 885.4 885.4 295.1 If the length of the cord is increased by four times the initial length, then determine the period of the harmonic motion. <> stream 611.1 798.5 656.8 526.5 771.4 527.8 718.7 594.9 844.5 544.5 677.8 762 689.7 1200.9 2022 Practice Exam 1 Mcq Ap Physics Answersmotorola apx /BaseFont/EKGGBL+CMR6 /FontDescriptor 17 0 R This is why length and period are given to five digits in this example. 2015 All rights reserved. Earth, Atmospheric, and Planetary Physics Divide this into the number of seconds in 30days. B ased on the above formula, can conclude the length of the rod (l) and the acceleration of gravity (g) impact the period of the simple pendulum. Trading chart patters How to Trade the Double Bottom Chart Pattern Nixfx Capital Market. /FirstChar 33 This result is interesting because of its simplicity. 500 500 611.1 500 277.8 833.3 750 833.3 416.7 666.7 666.7 777.8 777.8 444.4 444.4 What is the length of a simple pendulum oscillating on Earth with a period of 0.5 s? 33 0 obj Mathematical endobj xZ[o6~G XuX\IQ9h_sEIEZBW4(!}wbSL0!` eIo`9vEjshTv=>G+|13]jkgQaw^eh5I'oEtW;`;lH}d{|F|^+~wXE\DjQaiNZf>_6#.Pvw,TsmlHKl(S{"l5|"i7{xY(rebL)E$'gjOB$$=F>| -g33_eDb/ak]DceMew[6;|^nzVW4s#BstmQFVTmqKZ=pYp0d%`=5t#p9q`h!wi 6i-z,Y(Hx8B!}sWDy3#EF-U]QFDTrKDPD72mF. << Pendulum . Get There. /BaseFont/VLJFRF+CMMI8 896.3 896.3 740.7 351.8 611.1 351.8 611.1 351.8 351.8 611.1 675.9 546.3 675.9 546.3 /FirstChar 33 endstream endobj WebClass 11 Physics NCERT Solutions for Chapter 14 Oscillations. 285.5 799.4 485.3 485.3 799.4 770.7 727.9 742.3 785 699.4 670.8 806.5 770.7 371 528.1 if(typeof ez_ad_units != 'undefined'){ez_ad_units.push([[300,250],'physexams_com-large-mobile-banner-1','ezslot_6',148,'0','0'])};__ez_fad_position('div-gpt-ad-physexams_com-large-mobile-banner-1-0'); The period of a pendulum is defined as the time interval, in which the pendulum completes one cycle of motion and is measured in seconds. /Type/Font 7195c96ec29f4f908a055dd536dcacf9, ab097e1fccc34cffaac2689838e277d9 Our mission is to improve educational access and - Unit 1 Assignments & Answers Handout. The Island Worksheet Answers from forms of energy worksheet answers , image source: www. WAVE EQUATION AND ITS SOLUTIONS 656.3 625 625 937.5 937.5 312.5 343.8 562.5 562.5 562.5 562.5 562.5 849.5 500 574.1 Physics 1 First Semester Review Sheet, Page 2. /Subtype/Type1 endobj 384.3 611.1 675.9 351.8 384.3 643.5 351.8 1000 675.9 611.1 675.9 643.5 481.5 488 /BaseFont/JMXGPL+CMR10 << Which Of The Following Objects Has Kinetic Energy In this problem has been said that the pendulum clock moves too slowly so its time period is too large. Thus, the period is \[T=\frac{1}{f}=\frac{1}{1.25\,{\rm Hz}}=0.8\,{\rm s}\] Problems (4): The acceleration of gravity on the moon is $1.625\,{\rm m/s^2}$. /FontDescriptor 11 0 R WebPhysics 1120: Simple Harmonic Motion Solutions 1. Solution: The frequency of a simple pendulum is related to its length and the gravity at that place according to the following formula \[f=\frac {1}{2\pi}\sqrt{\frac{g}{\ell}}\] Solving this equation for $g$, we have \begin{align*} g&=(2\pi f)^2\ell\\&=(2\pi\times 0.601)^2(0.69)\\&=9.84\quad {\rm m/s^2}\end{align*}, Author: Ali Nemati 843.3 507.9 569.4 815.5 877 569.4 1013.9 1136.9 877 323.4 569.4] As an Amazon Associate we earn from qualifying purchases. >> endobj /Type/Font /FontDescriptor 29 0 R (a) Find the frequency (b) the period and (d) its length. 795.8 795.8 649.3 295.1 531.3 295.1 531.3 295.1 295.1 531.3 590.3 472.2 590.3 472.2 /LastChar 196 /Subtype/Type1 600.2 600.2 507.9 569.4 1138.9 569.4 569.4 569.4 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Simple pendulum problems and solutions PDF 351.8 935.2 578.7 578.7 935.2 896.3 850.9 870.4 915.7 818.5 786.1 941.7 896.3 442.6 Current Index to Journals in Education - 1993 24 0 obj 277.8 305.6 500 500 500 500 500 750 444.4 500 722.2 777.8 500 902.8 1013.9 777.8 766.7 715.6 766.7 0 0 715.6 613.3 562.2 587.8 881.7 894.4 306.7 332.2 511.1 511.1 If this doesn't solve the problem, visit our Support Center . << 888.9 888.9 888.9 888.9 666.7 875 875 875 875 611.1 611.1 833.3 1111.1 472.2 555.6 WebAnalytic solution to the pendulum equation for a given initial conditions and Exact solution for the nonlinear pendulum (also here). These NCERT Solutions provide you with the answers to the question from the textbook, important questions from previous year question papers and sample papers. PDF Here is a set of practice problems to accompany the Lagrange Multipliers section of the Applications of Partial Derivatives chapter of the notes for Paul Dawkins Calculus III course at Lamar University. /Widths[622.5 466.3 591.4 828.1 517 362.8 654.2 1000 1000 1000 1000 277.8 277.8 500 770.7 628.1 285.5 513.9 285.5 513.9 285.5 285.5 513.9 571 456.8 571 457.2 314 513.9 21 0 obj WebSOLUTION: Scale reads VV= 385. /Type/Font In part a i we assumed the pendulum was a simple pendulum one with all the mass concentrated at a point connected to its pivot by a massless, inextensible string. A simple pendulum of length 1 m has a mass of 10 g and oscillates freely with an amplitude of 2 cm. 33 0 obj /Length 2736 675.9 1067.1 879.6 844.9 768.5 844.9 839.1 625 782.4 864.6 849.5 1162 849.5 849.5 460 511.1 306.7 306.7 460 255.6 817.8 562.2 511.1 511.1 460 421.7 408.9 332.2 536.7 Although adding pennies to the Great Clock changes its weight (by which we assume the Daily Mail meant its mass) this is not a factor that affects the period of a pendulum (simple or physical). pendulum /BaseFont/OMHVCS+CMR8 Exams will be effectively half of an AP exam - 17 multiple choice questions (scaled to 22. /Name/F9 6.1 The Euler-Lagrange equations Here is the procedure. m77"e^#0=vMHx^3}D:x}??xyx?Z #Y3}>zz&JKP!|gcb;OA6D^z] 'HQnF@[ Fr@G|^7$bK,c>z+|wrZpGxa|Im;L1
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ye3g6QH "#3n.[\f|r? xc```b``>6A What is the answer supposed to be? What is its frequency on Mars, where the acceleration of gravity is about 0.37 that on Earth? <> /LastChar 196 Thus, by increasing or decreasing the length of a pendulum, we can regulate the pendulum's time period. 24/7 Live Expert. /FontDescriptor 38 0 R To Find: Potential energy at extreme point = E P =? Mathematically we have x2 1 + y 2 1 = l 2 1; (x2 x1) 2 + (y2 y1)2 = l22: Given: Length of pendulum = l = 1 m, mass of bob = m = 10 g = 0.010 kg, amplitude = a = 2 cm = 0.02 m, g = 9.8m/s 2. There are two constraints: it can oscillate in the (x,y) plane, and it is always at a xed distance from the suspension point. >> /FirstChar 33 the pendulum of the Great Clock is a physical pendulum, is not a factor that affects the period of a pendulum, Adding pennies to the pendulum of the Great Clock changes its effective length, What is the length of a seconds pendulum at a place where gravity equals the standard value of, What is the period of this same pendulum if it is moved to a location near the equator where gravity equals 9.78m/s, What is the period of this same pendulum if it is moved to a location near the north pole where gravity equals 9.83m/s. 777.8 777.8 1000 1000 777.8 777.8 1000 777.8] The SI unit for frequency is the hertz (Hz) and is defined as one cycle per second: 1 Hz = 1 cycle s or 1 Hz = 1 s = 1 s 1. Physics problems and solutions aimed for high school and college students are provided. endobj Example 2 Figure 2 shows a simple pendulum consisting of a string of length r and a bob of mass m that is attached to a support of mass M. The support moves without friction on the horizontal plane. Pendulum A is a 200-g bob that is attached to a 2-m-long string. WebAustin Community College District | Start Here. H Which has the highest frequency? 1. (The weight mgmg has components mgcosmgcos along the string and mgsinmgsin tangent to the arc.) xZYs~7Uj)?$e'VP$DJOtn/ *ew>>D/>\W/O0ttW1WtV\Uwizb
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Two simple pendulums are in two different places. Physics 1: Algebra-Based If you are giving the regularly scheduled exam, say: It is Tuesday afternoon, May 3, and you will be taking the AP Physics 1: Algebra-Based Exam. WebPhysics 1 Lab Manual1Objectives: The main objective of this lab is to determine the acceleration due to gravity in the lab with a simple pendulum. endobj 351.8 611.1 611.1 611.1 611.1 611.1 611.1 611.1 611.1 611.1 611.1 611.1 351.8 351.8 can be very accurate. (Take $g=10 m/s^2$), Solution: the frequency of a pendulum is found by the following formula \begin{align*} f&=\frac{1}{2\pi}\sqrt{\frac{g}{\ell}}\\\\ 0.5 &=\frac{1}{2\pi}\sqrt{\frac{10}{\ell}} \\\\ (2\pi\times 0.5)^2 &=\left(\sqrt{\frac{10}{\ell}}\right)^2\\\\ \Rightarrow \ell&=\frac{10}{4\pi^2\times 0.25}\\\\&=1\quad {\rm m}\end{align*}. 324.7 531.3 531.3 531.3 531.3 531.3 795.8 472.2 531.3 767.4 826.4 531.3 958.7 1076.8 When we discuss damping in Section 1.2, we will nd that the motion is somewhat sinusoidal, but with an important modication. 285.5 799.4 485.3 485.3 799.4 770.7 727.9 742.3 785 699.4 670.8 806.5 770.7 371 528.1 12 0 obj when the pendulum is again travelling in the same direction as the initial motion. Websome mistakes made by physics teachers who retake models texts to solve the pendulum problem, and finally, we propose the right solution for the problem fashioned as on Tipler-Mosca text (2010). A simple pendulum is defined to have an object that has a small mass, also known as the pendulum bob, which is suspended from a light wire or string, such as shown in Figure 16.13. /BaseFont/NLTARL+CMTI10 /Widths[323.4 569.4 938.5 569.4 938.5 877 323.4 446.4 446.4 569.4 877 323.4 384.9 if(typeof ez_ad_units != 'undefined'){ez_ad_units.push([[300,250],'physexams_com-leader-2','ezslot_9',117,'0','0'])};__ez_fad_position('div-gpt-ad-physexams_com-leader-2-0'); Recall that the period of a pendulum is proportional to the inverse of the gravitational acceleration, namely $T \propto 1/\sqrt{g}$. \(&SEc How long of a simple pendulum must have there to produce a period of $2\,{\rm s}$. /FontDescriptor 8 0 R Look at the equation again. 18 0 obj << /Filter /FlateDecode /S 85 /Length 111 >> Or at high altitudes, the pendulum clock loses some time. 877 0 0 815.5 677.6 646.8 646.8 970.2 970.2 323.4 354.2 569.4 569.4 569.4 569.4 569.4 Except where otherwise noted, textbooks on this site A classroom full of students performed a simple pendulum experiment. 12 0 obj The linear displacement from equilibrium is, https://openstax.org/books/college-physics-2e/pages/1-introduction-to-science-and-the-realm-of-physics-physical-quantities-and-units, https://openstax.org/books/college-physics-2e/pages/16-4-the-simple-pendulum, Creative Commons Attribution 4.0 International License. /XObject <> <>/ExtGState<>/ProcSet[/PDF/Text/ImageB/ImageC/ImageI] >>/MediaBox[ 0 0 612 792] /Contents 4 0 R/Group<>/Tabs/S/StructParents 0>>
Calculate gg. This is not a straightforward problem. 0 0 0 0 0 0 0 0 0 0 777.8 277.8 777.8 500 777.8 500 777.8 777.8 777.8 777.8 0 0 777.8 Pendulum B is a 400-g bob that is hung from a 6-m-long string. 21 0 obj 323.4 569.4 569.4 569.4 569.4 569.4 569.4 569.4 569.4 569.4 569.4 569.4 323.4 323.4 Attach a small object of high density to the end of the string (for example, a metal nut or a car key). can be important in geological exploration; for example, a map of gg over large geographical regions aids the study of plate tectonics and helps in the search for oil fields and large mineral deposits. Webpoint of the double pendulum. 1002.4 873.9 615.8 720 413.2 413.2 413.2 1062.5 1062.5 434 564.4 454.5 460.2 546.7 /FirstChar 33 What is the period of the Great Clock's pendulum? 826.4 295.1 531.3] %PDF-1.5
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Web16.4 The Simple Pendulum - College Physics | OpenStax Uh-oh, there's been a glitch We're not quite sure what went wrong. WebThe section contains questions and answers on undetermined coefficients method, harmonic motion and mass, linear independence and dependence, second order with variable and constant coefficients, non-homogeneous equations, parameters variation methods, order reduction method, differential equations with variable coefficients, rlc 750 708.3 722.2 763.9 680.6 652.8 784.7 750 361.1 513.9 777.8 625 916.7 750 777.8 Hence, the length must be nine times. 500 500 500 500 500 500 500 500 500 500 500 277.8 277.8 777.8 500 777.8 500 530.9 525 768.9 627.2 896.7 743.3 766.7 678.3 766.7 729.4 562.2 715.6 743.3 743.3 998.9 656.3 625 625 937.5 937.5 312.5 343.8 562.5 562.5 562.5 562.5 562.5 849.5 500 574.1 Which answer is the right answer? /Widths[1000 500 500 1000 1000 1000 777.8 1000 1000 611.1 611.1 1000 1000 1000 777.8 Starting at an angle of less than 1010, allow the pendulum to swing and measure the pendulums period for 10 oscillations using a stopwatch. 298.4 878 600.2 484.7 503.1 446.4 451.2 468.8 361.1 572.5 484.7 715.9 571.5 490.3 Pendulum 2 has a bob with a mass of 100 kg100 kg. <> 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 706.4 938.5 877 781.8 754 843.3 815.5 877 815.5 Physics 1 Lab Manual1Objectives: The main objective of this lab Solutions to the simple pendulum problem One justification to study the problem of the simple pendulum is that this may seem very basic but its >> xYK
WL+z^d7 =sPd3 X`H^Ea+y}WIeoY=]}~H,x0aQ@z0UX&ks0. /FontDescriptor 23 0 R WebPENDULUM WORKSHEET 1. 1444.4 555.6 1000 1444.4 472.2 472.2 527.8 527.8 527.8 527.8 666.7 666.7 1000 1000 N*nL;5
3AwSc%_4AF.7jM3^)W? Two pendulums with the same length of its cord, but the mass of the second pendulum is four times the mass of the first pendulum. 500 555.6 527.8 391.7 394.4 388.9 555.6 527.8 722.2 527.8 527.8 444.4 500 1000 500 << /BaseFont/YBWJTP+CMMI10 PHET energy forms and changes simulation worksheet to accompany simulation. If the length of a pendulum is precisely known, it can actually be used to measure the acceleration due to gravity. Adding pennies to the pendulum of the Great Clock changes its effective length. /Name/F2 384.3 611.1 611.1 611.1 611.1 611.1 896.3 546.3 611.1 870.4 935.2 611.1 1077.8 1207.4 ICSE, CBSE class 9 physics problems from Simple Pendulum /W [0 [777.832 0 0 250 0 408.2031 500 0 0 777.832 180.1758 333.0078 333.0078 0 563.9648 250 333.0078 250 277.832] 19 28 500 29 [277.832] 30 33 563.9648 34 [443.8477 920.8984 722.168 666.9922 666.9922 722.168 610.8398 556.1523 0 722.168 333.0078 389.1602 722.168 610.8398 889.1602 722.168 722.168 556.1523 722.168 0 556.1523 610.8398 722.168 722.168 943.8477 0 0 610.8398] 62 67 333.0078 68 [443.8477 500 443.8477 500 443.8477 333.0078 500 500 277.832 277.832 500 277.832 777.832] 81 84 500 85 [333.0078 389.1602 277.832 500 500 722.168 500 500 443.8477] 94 130 479.9805 131 [399.9023] 147 [548.8281] 171 [1000] 237 238 563.9648 242 [750] 520 [582.0313] 537 [479.0039] 550 [658.2031] 652 [504.8828] 2213 [526.3672]]>> Simple Pendulum The problem said to use the numbers given and determine g. We did that. 624.1 928.7 753.7 1090.7 896.3 935.2 818.5 935.2 883.3 675.9 870.4 896.3 896.3 1220.4 /LastChar 196 /Subtype/Type1 /BaseFont/LFMFWL+CMTI9 if(typeof ez_ad_units != 'undefined'){ez_ad_units.push([[300,250],'physexams_com-leader-3','ezslot_10',134,'0','0'])};__ez_fad_position('div-gpt-ad-physexams_com-leader-3-0'); Problem (11): A massive bob is held by a cord and makes a pendulum. 597.2 736.1 736.1 527.8 527.8 583.3 583.3 583.3 583.3 750 750 750 750 1044.4 1044.4 xK =7QE;eFlWJA|N
Oq]
PB 545.5 825.4 663.6 972.9 795.8 826.4 722.6 826.4 781.6 590.3 767.4 795.8 795.8 1091 Students calculate the potential energy of the pendulum and predict how fast it will travel. 0 0 0 0 0 0 0 0 0 0 0 0 675.9 937.5 875 787 750 879.6 812.5 875 812.5 875 0 0 812.5 PDF >> @ @y ss~P_4qu+a" '
9y c&Ls34f?q3[G)> `zQGOxis4t&0tC: pO+UP=ebLYl*'zte[m04743C 3d@C8"P)Dp|Y