...Cuadro comparativo de las Teorías de la Libertad | Teoría | Principal(es) exponente(s) | Según esta teoría, ¿el hombre es libre? | Razones | Libre arbitrismo | Muchos a través de la historia, incluyendo a: Tomás de Aquino William James Erwin Schroedinger | Sí | Porque sus acciones dependen de él y proceden de él, no de causas externas. | Fatalismo | Aristóteles Juan Calvino Richard Taylor | No | Porque su conducta es controlada por factores trascendentes extraterrestres o sobrenaturales, y no puede evitar su destino. | Determinismo | Marco Aurelio Baruch Spinoza David Hume Friedrich Nietzche | No | Porque se halla determinado a obrar por causas inmanentes, terrestres, que la ciencia puede identificar. | Bergsonismo | Henri Bergson | No o Sí | Porque el hombre, tanto como individuo como en la historia, va progresando de actos automáticos a actos cada vez más libres, gracias a la "Evolución Creadora." | Existencialismo | Jean Paul Sartre | Sí. Tan es libre que es esclavo de su libertad. | Porque si quisiera ser "libre" de su libertad, encontraría que no puede. La conciencia de su libertad le puede traer dolor, pero aunque quiera escaparse de esa conciencia, sigue siendo libre. | Fenomenología | Edmund Husserl | SÍ, pero NO frente a un valor | Porque una vez que el hombre haya captado un valor, se encuentra determinado a realizarlo. | Materialismo dialéctico | Moisés Hess | No en esencia | Porque el hombre es en esencia un ser físico, pero mientras avanza...
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...the reporting time. INDIAN INSTITUTE OF MANAGEMENT KOZHIKODE POST GRADUATE PROGRAMME OFFICE End-Term Examinations (PGP 17, Term-III, 2013-15) Seating Plan Course Venue C2 C3 C4 FM-II OM-II CC1 CC2 C1 A1 A2 Section-A 01-15 16-27 28-38 39-62, D/205,219 Section-B 63-77 78-87 88-97 98-125 D/180,238 Roll Numbers Section-C Section-D 126-139 140-149 150-160 161-188 D/324 189-209 210-224 225-238 239-250 357-359 Section-E Section-F 251-270 271-284 285-298 299-304 360-361 FPM 2-5 305-324 325-338 339-352 353-356 362-364 FPM 8-11 Venue CC2 C3 EM MM-II IE C4 A1 A2 C1 C2 CC1 Section-A 01-33 34-48 49-62 D/205, 219 Section-B 63-95 96-111 112-125 D/180 Roll Numbers Section-C Section-D Section-E Section-F 126-146 147-167 168-188 D/111 189-210 212-232 233-250 357-359 251-271 272-304 360-361 FPM 2-5 305-325 326-356 362-364 FPM 8-11 Venue CC1 C4 C3 HRM C2 C1 A2 A1 CC2 Section-A 01-30 31-41 42-51 52-62 D/205,219 Section-B 63-91 92-101 102-111 112-125 D/180 Roll Numbers Section-C Section-D 126-153 154-163 164-175 176-188 D/324 189-203 204-218 219-232 233-250 357-359 Section-E Section-F 251-264 265-278 279-292 293-304 360-361 FPM 2-5 305-318 319-332 333-346 347-356 362-364 FPM 8-11 Course Venue A1 A2 C1 Section-A 01-15 16-30 31-44 45-62 D/219...
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...IMSE561/EMGT525 - TOTAL QUALITY MANAGEMENT AND SIX SIGMA HOMEWORK-6 Name: Shyam V.H Karumanchi UM ID 0833-3824 Question 1: Describe the design procedure for robust design REFERENCES: 1. Chapter 20 Quality engineering lecture notes Products and services should be designed to be inherently defect free and of high quality. Robustness The product or process performs its intended function well within user profiles and insensitive to the variation including: Variation in production Differences in materials Differences in users or operators aging of the product or process, and the product or process accomplishes this without major cost impact. General procedure for robust design 1. Problem Formulation: This step consists of identifying the main function, developing the P-diagram, defining the ideal function and S/N ratio, and planning the experiments. The experiments involve changing the control, noise and signal factors systematically using orthogonal arrays. 2. Data Collection/Simulation: The experiments may be conducted in hardware or through simulation. It is not necessary to have a full-scale model of the product for the purpose of experimentation. It is sufficient and more desirable to have an essential model of the product that adequately captures the design concept. Thus, the experiments can be done more economically. 3. Factor Effects Analysis: The effects of the control factors are calculated in this step and the results are analyzed to select optimum setting of the...
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...2014 年秋季中国精算师资格考试公告 中精协发〔2014〕19 号 中国精算师资格考试是中国保险监督管理委员会主办的国家级 职业资格考试,委托中国精算师协会组织实施。现将 2014 年秋季中 国精算师资格考试的有关事项公告如下: 一、开考科目 本次开考中国精算师资格考试准精算师部分 A1~A8 科目; 精算 师部分 F3、F4、F5、F8 及 F10 科目。具体开考科目如下: 科目代码 A1 A2 A3 A4 A5 A6 A7 A8 数学 金融数学 精算模型 经济学 寿险精算 非寿险精算 会计与财务 精算管理 科目 科目代码 F3 F4 F5 F8 F10 科目 个人寿险与年金精算实务 员工福利计划 非寿险实务 投资学 健康保险 二、考试时间 日期 时间 上午 9:00-12:00 10 月 18 日 下午 2:00-5:00 10 月 19 日 上午 9:00-12:00 A1 数学 A2 金融数学 A4 经济学 考试科目 1 下午 2:00-5:00 上午 8:30-12:30 10 月 20 日 下午 2:00-5:00 上午 8:30-12:30 10 月 21 日 下午 2:00-5:00 上午 8:30-12:30 10 月 22 日 下午 2:00-5:00 上午 8:30-12:30 10 月 23 日 下午 2:00-5:00 10 月 24 日 上午 8:30-12:30 A7 会计与财务 F5 非寿险实务 A3 精算模型 F3 个人寿险与年金精算实务 A5 寿险精算 F8 投资学 A6 非寿险精算 F10 健康保险 A8 精算管理 F4 员工福利计划 三、考试地点 考区 北京 天津 上海 武汉 广州 成都 合肥 西安 考试中心 中央财经大学 南开大学 复旦大学 武汉大学 中山大学 西南财经大学 中国科学技术大学 西安交通大学 联系电话 010-62288158/62288156/13381412909 13072232967 021-55665146/65642341/13818889826 027-68752134/18971480365 020-84114060/18620907703 028-87352399 0551-63607241/13215698056 029–82656851/13772069342 2 重庆 南京 大连 济南 长沙 厦门 哈尔滨 重庆大学 南京大学 大连理工大学 山东大学 湖南大学 厦门大学 黑龙江大学 023-65678620/13883302157 025-83593881 0411-84706101-605/13998500066 0531-88364894/13806409823 0731-88684770/13975804736 0592-2181450/18959218870 0451-86604652/13796002792 备注:加拿大滑铁卢大学考试中心考试安排另行通知 四、考试报名 考试报名包括网上报名和报名确认两个阶段。 (一)网上报名 网上报名时间:8 月 1 日至 9 月 10 日。 报名网址:中国精算师协会网站(www.e-caa.org.cn)。 (二)报名确认 为保证考生报名信息提交成功, 考生须向所报考考区考试中心确 认网上报名信息并缴费。 1、报名确认时间与方式 报名确认分为现场确认和邮寄确认两种方式。 现场确认时间:9 月 11 日至 9 月 15 日 邮寄确认时间:9 月 6 日至 9 月 10 日 考生可在报名确认时间内直接到向所报考考区考试中心现场确...
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...Objective: a) To determine the coefficient of discharge for a Venturi meter. b) To investigate the variation of piezometer (or static) head along the length of the Venturi meter. Theory: A venturi is a short tube with a constricted throat used to determine fluid pressure and velocities by measurement of differential pressures generated at the throat as fluid transverses the tube. It was by this method the venturi meter was develop by a scientist known as Clemens Herschel. [pic] Venturi meters can pass 25 – 50% more flow than an orifice meter. In a Venturi meter setup, a short, smaller diameter pipe is substituted into an existing flow line. In the Venturi Tube the fluid flow-rate is measured by reducing the cross sectional flow area in the flow path, generating a pressure difference. After the constricted area, the fluid is passes through a pressure recovery exit section, where up to 80% of the differential pressure generated at the constricted area, is recovered. By Bernoulli’s principle the smaller cross-sectional area results in faster flow and therefore lower pressure. The Venturi meter measures the pressure drop between this constricted section of pipe and the non-constricted section. [pic] The discharge coefficient for the Venturi meter is generally higher than that used for the orifice, usually ranging from .94 to .99. Due to simplicity and dependability, the Venturi tube flow-meter is often used in applications where higher turndown ratios...
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...SCHAUM’S outlines SCHAUM’S outlines Linear Algebra Fourth Edition Seymour Lipschutz, Ph.D. Temple University Marc Lars Lipson, Ph.D. University of Virginia Schaum’s Outline Series New York Chicago San Francisco Lisbon London Madrid Mexico City Milan New Delhi San Juan Seoul Singapore Sydney Toronto Copyright © 2009, 2001, 1991, 1968 by The McGraw-Hill Companies, Inc. All rights reserved. Except as permitted under the United States Copyright Act of 1976, no part of this publication may be reproduced or distributed in any form or by any means, or stored in a database or retrieval system, without the prior written permission of the publisher. ISBN: 978-0-07-154353-8 MHID: 0-07-154353-8 The material in this eBook also appears in the print version of this title: ISBN: 978-0-07-154352-1, MHID: 0-07-154352-X. All trademarks are trademarks of their respective owners. Rather than put a trademark symbol after every occurrence of a trademarked name, we use names in an editorial fashion only, and to the benefit of the trademark owner, with no intention of infringement of the trademark. Where such designations appear in this book, they have been printed with initial caps. McGraw-Hill eBooks are available at special quantity discounts to use as premiums and sales promotions, or for use in corporate training programs. To contact a representative please e-mail us at bulksales@mcgraw-hill.com. TERMS OF USE This is a copyrighted work and The McGraw-Hill Companies,...
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...un espacio vectorial dichos conceptos. Uno de ellos consiste en definirlos a partir de una operación conocida como producto interno Producto interno Un producto interior dentro de un espacio vectorial V es una función que asocia a cada par ordenado de vectores u y v en V, un número real único < u,v >, llamado producto interno de u y v, y que satisface los siguientes axiomas para todos u, v y w en V y para todo escalar c : 1. 2. 3. 4. 5. < u,v > = < v,u > < u + v , w > = < u, w > + < v , w > < cu, v > = c < u, v > < u,u > 0 < u,u > = 0, entonces u = 0 Ejemplo Dados los vectores u = (u1, u2) y v = (v1, v2) en R2 y sea < u, v > = 4u1v1 + 5 u2v2 (1) Demuestre que (1) define un producto interno. Solución: Satisface el axioma #1: < u, v > = 4u1v1 + 5 u2v2 = 4v1u1 + 5 v2u2 = < v, u > Axioma #2: Si W = ( w1, w2), entonces: < u + v, w > = 4(u1 + v1 )w1 + 5( u2 + v2 )w2 = 4u1 w1 +...
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...Publicly-available solutions for AN INTRODUCTION TO GAME THEORY Publicly-available solutions for AN INTRODUCTION TO GAME THEORY M ARTIN J. O SBORNE University of Toronto Copyright © 2012 by Martin J. Osborne All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior permission of Martin J. Osborne. This manual was typeset by the author, who is greatly indebted to Donald Knuth A (TEX), Leslie Lamport (L TEX), Diego Puga (mathpazo), Christian Schenk (MiKTEX), Ed Sznyter (ppctr), Timothy van Zandt (PSTricks), and others, for generously making superlative software freely available. The main font is 10pt Palatino. Version 6: 2012-4-7 Contents Preface 1 xi Introduction 1 Exercise 5.3 (Altruistic preferences) 1 Exercise 6.1 (Alternative representations of preferences) 1 2 Nash Equilibrium 3 Exercise 16.1 (Working on a joint project) 3 Exercise 17.1 (Games equivalent to the Prisoner’s Dilemma) 3 Exercise 20.1 (Games without conflict) 3 Exercise 31.1 (Extension of the Stag Hunt) 4 Exercise 34.1 (Guessing two-thirds of the average) 4 Exercise 34.3 (Choosing a route) 5 Exercise 37.1 (Finding Nash equilibria using best response functions) 6 Exercise 38.1 (Constructing best response functions) 6 Exercise 38.2 (Dividing money) 7 Exercise 41.1 (Strict and nonstrict...
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...Energiewandler ------------------------------------------------- Auswertung Laborübung Synchronmaschinen ___________________ Inhaltsverzeichnis 2. Versuchsauswertung 2 2.1.1 Aufgabenstellung 2 2.1.2 Versuchsaufbau 2 2.2 Inselbetrieb 3 2.2.A Leerlaufversuch …………………………………………………………………………………................................................3 2.2.B Belastungskennlinie U (IA) für veränderte Widerstände. 5 2.2.C Kurzschlussversuch. Bestimmen der synchronen Reaktanz Xd des Generators 6 2.3 Betrieb am starren Netz………………………………………………………………………………………………………………………….…7 2.3.1 Synchronisierungsbedingungen und Netzankopplung…………………………………………………………………..….8 2. Versuchsauswertung 2.1.1 Aufgabenstellung Ziel des Versuches ist die Vermessung einer Synchronmaschine (SM) im Generatorbetrieb. Die Synchronmaschine wird mittels eines Gleichstrom-Motors mit Tachogenerator angetrie-ben. Einstellbare Größen sind die Erregerspannung, der Erregerstrom sowie die Belastung. Kenndaten der Synchronmaschine Nennspannung UA,N=400 V | 2 Schleifringe versorgen die SM mit Gleichspannung | Nenndrehzahl nN=1500 min-1 | 4-polige Maschine (Vollpolläufer) | | Zu messende Größen sind: Ankerspannung UA , Ankerstrom IA des Generators, Drehzahl n und Frequenz f 2.1.2 Versuchsaufbau | Links: Synchronmaschine (verwendet als Generator), Rechts: Gleichstrom-Motor mit Tachogenerator | | | Synchrongenerator, Gleichstrommotor und diverse Messgeräte | 2 parallel...
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...Medical Assistant with CGPA 3.43 applying for clerk position. PERSONAL PARTICULAR | Name | : Nor Ain Farida Binti Abdul Aziz | Gender | : Female | Identity No | : 910207-03-5394 | Date Of Birth | : 7 February 1991 | Nationality | : Malaysian | Race | : Malay | Religion | : Islam | Marital Status | : Single | Height | : 155 Cm | | OFFICIAL CONTACT | Phone No | : 017- 3114603 | Current Address | : No 4-422, Pangsapuri Sri Melewar, Jalan Juruwang AU1/A Sek U1, 40150 Shah Alam, Selangor. | Permanent Address | : No 43, Jalan Laksamana 8, Taman Ungku Tun Aminah, 81300 Skudai, Johor | E-mail | : madina_ieda@yahoo.com | ACADEMIC BACKGROUND | Secondary Education Level | : Sijil Pelajaran Malaysia | | Institution | : SMK Taman Sutera, Johor | | Graduation | : December 2008 | | Result | : Bahasa Melayu | * A1 | | : Bahasa Inggeris | * B3 | | : Pendidikan Islam | * A2 | | : Sejarah | * A2 | | : Matematik | * A2 | | : Matematik Tambahan | * C5 | | : Fizik | * D7 | | : Kimia | * E8 | | : Biologi | * D7 | | : Tasawwur Islam | * B3 | | : English For Science And Technology | * C6 | | Further Education Level | : Diploma In Medical Assistant | | Insitution | : Management And Science University (MSU), Shah Alam | | Graduation | | | Result | : Semester 1 (GPA) | * 3.27 | | : Semester 2 (GPA) | * 3.29 | | : Semester 3 (GPA) | * 3.33 | ...
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...university of bahrain | Operation Research | Case Study (Transportation Problem) | | Ali Al-Nasser | 20092446 | Problem Al Kobaisi Group is a ready mix company which has three plants in various locations among Kingdom of Bahrain. They signed a contract with Al-Moayed contracting to supply them with concrete mix for three different projects located at three different areas. The following tables show the amount of concrete mix each plant can provide and required quantities for each project: Al Kobaisi Group Plants | Supply | P1 | 200 m3/day | P2 | 450 m3/day | P3 | 325 m3/day | Project Name | Demand | M1 | 100 m3/day | M2 | 375 m3/day | M3 | 500 m3/day | Al Kobaisi Group will rent the trucks from a transportation company to transfer the concrete mix from the plants to the sites. Sales manager of Al Kobaisi Group wants to know the optimum way of assignment of trucks in which the cost will be minimum. Use the below table in order to help the manager in taking the decision using one of the L.P models. P/M | M1 | M2 | M3 | Supply | P1 | 20 | 5 | 13 | 200 | P2 | 9 | 18 | 7 | 450 | P3 | 11 | 16 | 23 | 325 | Demand | 100 | 375 | 500 | | In order to solve the above mentioned problem we are going to use transportation model. However, before starting the solution a brief description of the model will be illustrated as follow: Transportation Problem Many practical problems in operations...
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...Solution Manual for A Course in Game Theory Solution Manual for A Course in Game Theory by Martin J. Osborne and Ariel Rubinstein Martin J. Osborne Ariel Rubinstein with the assistance of Wulong Gu The MIT Press Cambridge, Massachusetts London, England This manual was typeset by the authors, who are greatly indebted to Donald Knuth (the A creator of TEX), Leslie Lamport (the creator of L TEX), and Eberhard Mattes (the creator of emTEX) for generously putting superlative software in the public domain, and to Ed Sznyter for providing critical help with the macros we use to execute our numbering scheme. Version 1.1, 97/4/25 Contents Preface xi 2 Nash Equilibrium 1 Exercise 18.2 (First price auction ) 1 Exercise 18.3 (Second price auction ) 2 Exercise 18.5 (War of attrition ) 2 Exercise 19.1 (Location game ) 2 Exercise 20.2 (Necessity of conditions in Kakutani's theorem ) 4 Exercise 20.4 (Symmetric games ) 4 Exercise 24.1 (Increasing payo s in strictly competitive game ) 4 Exercise 27.2 (BoS with imperfect information ) 5 Exercise 28.1 (Exchange game ) 5 Exercise 28.2 (More information may hurt ) 6 Exercise 35.1 (Guess the average ) 7 Exercise 35.2 (Investment race ) 7 Exercise 36.1 (Guessing right ) 9 Exercise 36.2 (Air strike ) 9 Exercise 36.3 (Technical result on convex sets ) 10 Exercise 42.1 (Examples of Harsanyi's puri cation ) 10 Exercise 48.1 (Example of correlated equilibrium ) 11 Exercise 51.1 (Existence of ESS in 2 2 game ) 12 Exercise...
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...Examples: Confirmatory Factor Analysis And Structural Equation Modeling CHAPTER 5 EXAMPLES: CONFIRMATORY FACTOR ANALYSIS AND STRUCTURAL EQUATION MODELING Confirmatory factor analysis (CFA) is used to study the relationships between a set of observed variables and a set of continuous latent variables. When the observed variables are categorical, CFA is also referred to as item response theory (IRT) analysis (Baker & Kim, 2004; du Toit, 2003). CFA with covariates (MIMIC) includes models where the relationship between factors and a set of covariates are studied to understand measurement invariance and population heterogeneity. These models can include direct effects, that is, the regression of a factor indicator on a covariate in order to study measurement non-invariance. Structural equation modeling (SEM) includes models in which regressions among the continuous latent variables are estimated (Bollen, 1989; Browne & Arminger, 1995; Joreskog & Sorbom, 1979). In all of these models, the latent variables are continuous. Observed dependent variable variables can be continuous, censored, binary, ordered categorical (ordinal), unordered categorical (nominal), counts, or combinations of these variable types. CFA is a measurement model. SEM has two parts: a measurement model and a structural model. The measurement model for both CFA and SEM is a multivariate regression model that describes the relationships between a set of observed dependent variables and a set of continuous latent...
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...and v). Repeat the experiment for a series of values over the range u+v = 45 cm to 100 cm. ANALYSIS AND CONCLUSION: Plot a graph of u+v against u. The minimum point on the graph is at a point u+v = 4f, u = 2f (b) Two position method Set up the lamp, lens and screen 0.6m apart. Find the TWO positions where a clearly focused image of the lamp may be obtained. (one of these will give a large image and the other a small image). Measure the separation of lamp and screen (d) and the distance between the two positions of the lens (a) Repeat the procedure for other values of d between 0. 5m and 1m ANALYSIS AND CONCLUSION: The focal length of the lens may be calculated from the formula: f = [d2 – a2]/4d ----------------------- a v2 d u1 2...
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.../(x0 ω)) 0 ω = g/L = mgd/I x = Ae−(b/2m)t cos ω t, ω = k/m − b2 /4m2 2 2 A = Fmax / (k − mωd )2 + b2 ωd y(x, t) = A cos[ω(x/v − t)] = A cos(kx − ωt) λ = 2π/k, v√ ω/k = λf = F/µ = 2 2 Pav = (1/2) µF ω 2 A2 , I1 /I2 = r2 /r1 y(x, t) = ASW sin kx sin ωt fn = nv/(2L) p = mv J = Fdt = ∆p F = dp/dt Fext = dP/dt = M aCM p1i + p2i = p1f + p2f rCM = ( mi ri )/( mi ) ω = dθ/dt, α = dω/dt = d2 θ/dt2 = rθ, v = rω, atan = rα, arad = ω 2 r θ = θ0 + ω0 t + 1 αt2 2 ω = ω0 + αt 2 ω 2 = ω0 + 2α∆θ 1 ∆θ = 2 (ω + ω0 )t 2 I = mi ri IP = Icm + M d2 K = 1 Iω 2 2 Moments of inertia: Slender rod, about center Slender rod, about end Rectangular plate, about center Rectangular plate, about edge Hollow cylinder Solid cylinder Thin-walled hollow cylinder Solid sphere Thin-walled hollow sphere τ =F , τ =r×F τ = Iα 2 K = 1 M vcm + 1 Icm ω 2 2 2 W = τ dθ, P = τ ω L = r × p = r × mv L = Iω τ = dL/dt Fx = 0, Fy = 0, τ =0 1 2 12 M L 1 2 3ML 2 2 1 12 M (a + b ) 1 2 3Ma 1 2 2 2 M (R1 + R2 ) 1 2 2MR 2 MR 2 2 5MR 2 2 3MR |A × B| = AB sin φ = AB⊥ = A⊥ B ˆ i j A × B = (Ay Bz − Az By )ˆ + (Az Bx − Ax Bz )ˆ + (Ax By − Ay Bx )k F = ma FB on A = −FA on B w = mg fs ≤ µs n, fk = µk n K = 1 mv 2 2 W = F · s = F s cos φ x P W = x12 Fx dx = P12 F · d Wtot = K2 − K1 = ∆K P = dW/dt W = −∆U U = mgh, U = 1 kx2 2 K2 + U2 = K1 + U1 + Wother Fx (x) = −dU (x)/dx ˆ i j F = − ∂U ˆ + ∂U ˆ + ∂U k ∂x ∂y ∂z vx = dx/dt, vav−x = (x2 − x1 )/(t2 − t1 ) ax = dvx /dt, aav−x = (v2x − v1x )/(t2 − t1 ) t x(t) = x0 + 0 vx (t) dt t vx (t) = v0x +...
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