Projectile Motion Purpose: An object in a projectile motion move horizontally with no acceleration and vertically with the gravitational acceleration at the same time. This experiment is to investigate projectile motion using experiments‚ equations and comparing the expected and experimental data. Procedure: Case I: Use formulas to find equation of horizontal Range (R) in a projectile motion. Rearrange equation for Rmax‚ and find the angle Adjust the launches angle to angle Launch
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II Uniform Circular Motion A. Nomenclature 1. Speed – magnitude of an objects rate of motion (no direction‚ scalar quantity) 2. Velocity – speed and direction of an objects motion (vector‚ mag & direction) 3. If a car’s speed is constant but direction is changing‚ velocity is changing. 4. 2 ways to change velocity (change speed or change direction). 5. acceleration – change in speed over time (vector quantity) TWO types; a. Linear acceleration – speed
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Motion of the Cars In this part of the experiment‚ we are trying to figure out how fast each of the cars are moving using our own measurements. We are also asked to make a mathematical equation that describes the motion. What we plan to do is use 2 meter long meter stick to measure the distance of the cars and record the position at each time interval. After that an average velocity can be found. After we used the average velocity‚ we were able to put it into the equation of a line formula and
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Introduction The purpose of this section is to introduce the concepts of displacement‚ velocity‚ and acceleration. For the sake of simplicity‚ we shall restrict our attention to 1-dimensional motion. Displacement Consider a body moving in 1 dimension: e.g.‚ a train traveling down a straight railroad track‚ or a truck driving down an interstate in Kansas. Suppose that we have a team of observers who continually report the location of this body to us as time progresses. To be more exact‚ our observers
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Research In Motion Richard J. Truehl Jr. NETW/583 November 14‚ 2014 Professor Woody Wu I. Introduction A. This paper is will discuss the product development and the challenges that Research in Motion (RIM) faced in order to protect its intellectual property. We will also talk about some of the industry factors that influenced RIM with its decisions and course progression. II. Challenges A. In today’s digital world‚ intellectual property is the cornerstone upon which innovation
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Name Noah Meador___ Motion in 2D Simulation Go to http://phet.colorado.edu/simulations/sims.php?sim=Motion_in_2D and click on Run Now. 1) Once the simulation opens‚ click on ‘Show Both’ for Velocity and Acceleration at the top of the page. Now click and drag the red ball around the screen. Make 3 observations about the blue and green arrows (also called vectors) as you drag the ball around. 1. The green line points in the direction that the ball is going to go 2. The blue line changes the
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Tibiofemoral Kinematics: A Dynamic‚ in Vivo Study Andrea R. Seisler and Frances T. Sheehan* Abstract—In order to advance biomechanical modeling‚ knee joint implant design and clinical treatment of knee joint pathology‚ accurate in vivo kinematic data of the combined patellofemoral and tibiofemoral joint during volitional activity are critical. For example‚ one cause of the increased prevalence of anterior knee pain in the female population is hypothesized to be altered tibiofemoral kinematics‚ resulting
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Purpose/ Hypothesis: The purpose of the lab is to explore some of the variables that influence projectile motion using a Rubber Band Cannon and launching rubber bands and measuring its horizontal distance and angle at which the rubber bands has been launched.. Materials: Materials used for the lab were a Cardboard Box‚ a 30cm ruler‚ rubber bands‚ a measuring tape‚ tape‚ a pencil‚ a paper protractor cut out‚ and scissors. Procedure: For the lab‚ scissors were used to cut the paper protractor cutout
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ROTATIONAL MOTION CENTRE OF MASS AND ROTATIONAL MOTION INTRODUCTION- For describing the motion of rigid bodies‚ we shall introduce the key concept of ‘centre of mass’. This concept enables us to understand how we can apply justifiably the Newton’s laws of motion‚ in essentially the same form to objects of large size including even the astronomical objects like the planets and the stars. KINDS OF MOTION OF A RIGID BODY- A rigid body may have three kinds of motion- (1) Pure Translation Motion- in such
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Heather Vondervoort Mr. Wisternoff BOH 4M1 Sunday November 18‚ 2012 Research In Motion 1) After RIM’s fall over the past few years‚ they have brought in a new man to be CEO and Barbara Stymiest is taking over as chair. The reaction to the choice to make Thorsten Heins the new CEO was seen as too little too late. People don’t feel that Heins will be able to shake up the company enough to make a big enough change. They are hoping the new phone coming out from Blackberry called BB 10 will do
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