Running Head: MOTION AND GRAPHICAL ANALYSIS Motion and Graphical Analysis Lab 3 Qiling Yang PHY 101‚ Online Professor Gregory Stafford July 21‚ 2013 Motion and Graphical Analysis Laboratory exercise 3 covers two experiments which are intended to analyze application of laws of motion. Objectives By the end of this two-experiment laboratory‚ students ideally will know how to analyze displacement‚ velocity
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Research in Motion Porter’s Five Force Porter’s Five Force Model There are some different approaches available when measuring the profitability in a market‚ or industry. I choose to use the model by Michael E. Porter‚ where the profitability potential of an industry‚ described as the long run return on investment‚ is reliant on the degree of competition in the selected industry. The five forces that Porter mentions are; threat of entry‚ supplier power‚ buyer power‚ threat of substitutes and industry
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|Course Code |Credit Hours |Introduction to Computers |Contact Hrs/Week |Total Periods Allocated | | |(Th-Pr) | |(Th-Pr) |(Th-Pr) | |CS 111 | | |2 - 2 |40- 40 | | |2 - 1 |
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Brownian motion Journal report by Kimberly Stacey Rosas Anatomy and Physiology Lab I 2101.01 Introduction: What is the Brownian motion? The Brownian motion is the erratic random movement of microscopic particles in a fluid as a result of continuous bombardment from molecules of the surrounding medium. Robert Brown was a distinguished microscopist and botanist in the 1800s. Brown discovered the naked ovule of the gymnosperemae which is the most exacting piece of microscopical investigation
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Title: Uniform Circular Motion Objective: To investigate the relationship between FnetT² and radius Proposed Hypothesis: FnetT² is directly proportional to the radius Manipulated variable: Radius of the circular motion Responding variable: The time taken for 20 rotations Controlled variables: The mass of the rubber stopper‚ the mass of the weight hanger‚ the total weight of the slotted weight‚ the length of the PVC tube Apparatus and Materials: rubber stopper‚ stopwatch‚ weight
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The Introduction Abstract Through examining the simple harmonic motion of a mass hanging on a spring‚ three investigations were conducted in the experiment. The experiments include the relation between the period in oscillations and mass‚ and figuring out if the period vs. mass graph should go through the origin and lastly‚ finding the mass needed to create a one second timer. It was investigated by placing a motion detector under a spring that was attached to a clamp which was attached to a retort
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LAW TONG &AIDEN 2013/9/23 AP PHYSICS B Mr. Moss THE LAB OF ATWOOD Procedure: The purpose of this experiment was to verify the predictions of Newton’s Law for an Atwood machine‚ a simple machine constructed by hanging two different masses and from a string passing over pulleys and observing their acceleration.. Newton’s Law predicts that the acceleration should be proportional to the difference between the masses and proportional to their sum‚ where = 9.8 m/s2 is the
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Experiment 1.7: Graphical Analysis of Motion Introduction To graphically analyze motion‚ two graphs are commonly used: Displacement vs. Time and Velocity vs. Time. These two graphs provide significant information about motion including distance/displacement‚ speed/velocity‚ and acceleration. The displacement and acceleration of a moving body can be obtained from its Velocity vs. Time graph by respectively finding the area and the slope of the graph. Data Tables – Part I Displacement
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Bibliography: 1. The Golden Lyre by Michael Shane Calvert 2. Oxford School Shakespeare : As You Like It 3. As You Like It Workbook by Pamela and Xavier Pinto. 4. http://writershistory.com/index.php?option=com_content&task=view&id=499&Itemid=41 5. www.sparknotes.com
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EXPERIMENT 201: WORK‚ ENERGY AND POWER John Michael A. Ramos‚ Phy11l/A5 Abstract The essential conditions to be satisfied for work to be done are: Some force must act on the object. The point of application of force must move in the direction of force. W = F x s. SI unit of work is joule. Energy is the capacity to do work. The two types of mechanical energy are kinetic energy and potential energy. Kinetic energy is the energy possessed by an object by virtue of its motion. Potential energy is
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