ECONOMIC OF COMPETITION INDIVIDUAL ASSIGNMENT INDONESIAN CONSTRUCTION BUSINESS GOES OVERSEAS A Journey to become International Construction Player By : MAHENDRA VIJAYA 1240002095 MM Executive Batch 16 BINUS BUSSINES SCHOOL CHAPTER I BACKGROUND : As Indonesian Largest Construction Copany‚ PT Wijaya Karya (Persero) Tbk. (WIKA) has Vision and Mission to be One of the Leading EPC (Engineering‚ Procurement and Construction) and Investment Company in Southeast Asia‚ which is
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point starts with a topic sentence that states MP1 contains at least 3 sentences (S1‚ S2‚ S3)‚ each of which gives a supporting detail (each of these sentences may be further developed with sub-support sentences (SS1‚ SS2‚ SS3‚ etc.) ends with a conclusion sentence which summarizes or wraps up MP1 develops your second main point starts with a topic sentence that states MP2 contains at least 3 sentences (S1‚ S2‚ S3)‚ each of which gives a supporting detail (each of these sentences may be further developed
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|A = 1/2ab | |b = base |or |Note: The area of the triangle is half the area | | |P = s1 + s2 + s3 |of the corresponding parallelogram/rectangle. | |quadrilateral |[pic] |don’t need to memorize the formula in junior | |
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Constant Velocity and Accelerated Motion. Theory: Gravitational acceleration is constant on Earth g=9.8m/s2 Therefore‚ when the golf ball is dropped‚ the acceleration will be equal to gravitational acceleration agb=9.8m/s2 Given there is no air resistance‚ this means that when the golf ball is dropped from a given distance‚ according to the formulas‚ the golf ball will accelerate at 9.8m/s2 until reaching the floor. Using graphs of the data collected‚ information on the acceleration and velocity
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Unit 01 Forces and the Laws of Motion Problem Set 01 Part One: Concepts 1. Define: Force‚ Net Force 2. What are the three ways a net force an affect the motion of an object? 3. What is the SI unit of force? What are the fundamental units of force? 4. Why is force a vector? 5. A chair is pushed forward with a force of 185N. The gravitational force of Earth on the chair is 155N downward‚ and the floor exerts a force of 155N upward on the chair. Draw a free-body diagram showing the forces
Free Force Classical mechanics Newton's laws of motion
Calculating for acceleration due to gravity using a picket fence in free fall R. Cajucom‚ J. Suarez‚ and J. Villanueva Performed 9 September 2015; submitted 16 September 2015 Abstract-Limit the abstract to four to five sentences stating the following: (a) statement of the problem‚ (b) methodology‚ (c) pertinent results‚ and (d) conclusion. Avoid numbers and symbols in the abstract. After you have written the abstract‚ write the title. In not more than 13 words‚ choose a title that would
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Determination of g by Free Fall Raw Data: Time (ms) ± 0.01ms Height of release of ball from the sensor plate (cm) ±0.1cm Trial 1 Trial 2 Trial 3 Trial 4 Trial 5 0.0 0.00 0.00 0.00 0.00 0.00 15.0 180.05 179.36 178.74 180.26 180.23 30.0 244.33 244.21 244.71 243.88 245.87 45.0 300.72 301.29 300.59 301.43 301.70 60.0 348.68 348.39 348.77 349.12 348.35 75.0 390.27 390.77 389.58 391.19 390.43 This table below is the results obtained during the experiment in cm/ms. This table below is the results
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velocity was 1.8rad/s‚ and the amplitude of the angular acceleration was 9rad/s2 (Fig 2‚ Q1). Then‚ the subject stood on an elevated surface and allowed their hip to oscillate freely. The period of this oscillation was 1.5s and the frequency was 0.67Hz. The amplitude of the angle for the hip was 0.25rad. The amplitude of the angular velocity of the hip was 1.25rad/s. The amplitude of the angular acceleration of the hip was 6.05rad/s2(Fig 3‚ Q1). Next‚ the hip was allowed to oscillate freely while the knee
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Simple Harmonic Motion By Panun Bali Aim: The aim of this experiment was to determine the spring constant “k” of a spring using Hooke’s Law and Simple Harmonic Motion. Theory: Part 1: We know from the theory that the Time Period “T” for any spring that undergoes simple harmonic motion: T = 2π * √ (m/k) Where “T” is the Time Period of the spring; “m” is the mass attached to the spring and “k” is the spring constant of the spring used. After mathematically manipulating the equation
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uncover the similarities and differences in these two companies to decipher what is causing these two seemingly similar companies to have such different financial standings. We will begin our analysis with company backgrounds followed by SWOT & TOWS for both companies‚ after which we will use the Burton‚ Obel and DeSanctis’ model to analyze the characteristics of each company. Upon discovering Micron’s misfits we will make recommendations to bring about positive changes in the company and discuss
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