Experiment 4 Projectile Motion Introduction We examined projectile motion by observing a ball rolling down then leaving the ramp‚ thus becoming a projectile with a horizontal initial velocity. We measured the horizontal initial velocity using the photogate and computer. We measured the horizontal and vertical distances that the projectile traveled from the end of the ramp to when it hit the floor my using a meter stick to measure Experimental Set-Up In our experiment‚ we used the following:
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No. _____ For ___________________ ______________________‚ Accused. x - - - - - - - - - - - - - - - - - - x MOTION TO QUASH Accused‚ by his undersigned attorney‚ respectfully moves to quash the information filed against him on the ground that: (state one or more grounds provided for in Rule 117‚ Rules of Court) ARGUMENTS (state the reasons in support
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Title ___Conservation of Momentum and Energy______________________________________________ Name___Ben Groelke________________________________________________________________________ Date______November 13‚ 2012_______________________________________________________________ Course and Lab Section Number___PHY 1150-202________________________________________________ Collaborators_Briana‚ Travatello‚ Grayson North‚ Roy Huffman ______________________________ |Laboratory Report Scoring
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Table of Contents ABSTRACT 2 1.0 INTRODUCTION 2 2.0 THEORY 3 3.0 PROCEDURE 4 4.0 RESULTS 4 5.0 DISCUSSIONS 9 6.0 CONCLUSIONS 10 7.0 APPENDIX 11 ABSTRACT Motion of the rocket is simulated using two numerical analysis methods. From the simulation different parameters such as altitude‚ velocity‚ acceleration and range for initial fuel flows were calculated. Two numerical methods‚ Euler’s integration and 4th order Runge-Kutta integration are used
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Old Dominion University PHYS 111N Experiment 10 Harmonic Motion Submitted by: Lab Partner: Lab Instructor: Introduction In this experiment we will investigate the simple harmonic motion of an object suspended by a spring that oscillates on a vertical plane and in a separate experiment was examine oscillations on a horizontal plane. In simple harmonic motion‚ the displacement from the equilibrium position is directly proportional to the force. The force generated is always directed toward
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historical development of the models of the universe from the time of Aristotle to the time of Newton. Aristotle: Geocentric model of the universe involved a series of 56 concentric spheres to which celestial objects were attached. The Earth was not in motion as the stars showed no measureable parallax. Each planet‚ the Sun‚ and the Moon were in their own sphere and the stars were positioned on a larger sphere surrounding all the others. Ptolemy: Geocentric model of the universe placed the Earth at
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haL76442_ch02_029-060.indd Page 29 29/03/11 9:11 AM user-f494 /204/MHDQ284/haL76442_disk1of1/0073376442/haL76442_pagefiles C Kinematic Concepts for Analyzing Human Motion H A P T 2 After completing this chapter‚ you will be able to: Provide examples of linear‚ angular‚ and general forms of motion. Identify and describe the reference positions‚ planes‚ and axes associated with the human body. Define and appropriately use directional terms and joint movement terminology
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This is a report addressing to Research In Motion (RIM)’s board of directors’ request to review its vision and mission statements and to evaluate of how well RIM’s resource strengths and competitive capabilities match the industry’s key success factor. 1. Vision and Mission Statement Identification Upon research‚ there is no information regards on any vision and mission statement pre-developed by RIM. However‚ to bring RIM success to a higher level‚ we suggest you to look into our
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Merrily We Roll Along! Purpose: To investigate the relationship between distance and time for a ball rolling down an incline. Data: Table A | Time (s) | Incline 25° | Distance (cm) | Trial 1 | Trial 2 | Trial 3 | Average | 20.5 | 0.31 | 0.32 | 0.29 | 0.31 | 41 | 0.47 | 0.27 | 0.38 | 0.37 | 61.5 | 0.51 | 0.52 | 0.31 | 0.45 | 82 | 0.67 | 0.54 | 0.45 | 0.55 | 102.5 | 0.69 | 0.90 | 0.58 | 0.72 | 123 | 0.88 | 0.67 | 0.58
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The technology for Leap Motion was first developed in 2008‚ while co-founder David Holz was studying for a Ph.D. in mathematics. Following an initial angel investment‚ Holz co-founded the company in 2010 with his childhood friend Michael Buckwald. The company raised a $1.3M seed financing round in June 2011 with investments from venture capital firms Andreessen Horowitz‚ Founders Fund‚ and SOSventures‚ as well as several angel investors.[3] In May 2012‚ Leap Motion announced a $12.75M Series A funding
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