2012_______________________________________________________________ Course and Lab Section Number___PHY 1150-202________________________________________________ Collaborators_Briana‚ Travatello‚ Grayson North‚ Roy Huffman ______________________________ |Laboratory Report Scoring Rubric | | |4 |3 |2 |1 |0
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Perpetual Motion I will be researching perpetual motion and why it is said to be impossible. The reason I chose this topic is because I remember learning the laws of thermodynamics in my eighth grade science class. After explaining these laws‚ the teacher added‚ “…and that is why perpetual motion machines are impossible.” Since we have been studying related topics such as motion‚ gravity‚ and friction‚ I figure it would be a great time to learn specifically why it is considered impossible
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Stop motion animation has a long history in film. It was often used to show objects moving as if by magic. The first instance of the stop motion technique can be credited to Albert E. Smith and J. Stuart Blackton for The Humpty Dumpty Circus (1897)‚ in which a toy circus of acrobats and animals comes to life. In 1902‚ the film Fun in a Bakery Shop used the stop-trick technique in the "lightning sculpting" sequence. French trick film maestro Georges Méliès used true stop-motion to produce moving title-card
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Circular Motion Uniform circular motion is the movement of an object or particle trajectory at a constant speed around a circle with a fixed radius. The fixed radius‚ r‚ is the position of an object in uniform or circular motion relative to to the center of the circle. The length of the position vector of the circle does not change but its direction does as the object follows its circular path. In order to find the object’s velocity‚ one needs to find its displacement vector over the specific
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FORCE AND MOTION Ronald Steven DuBois 5th Grade St. Michael’s Catholic School 2009 TABLE OF CONTENTS 1. Abstract 2. Introduction 3. Background Information 4. Procedure 6. Data and Observations 7. Results 8. Conclusion 9. Bibliography ABSTRACT I thought it would be fun to fling things like raw eggs and rocks with a catapult. Guess what‚ it was! By flinging these items I tried to find out if heavier things would travel farther than lighter
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follows a path determined by the effects of gravitational acceleration and air resistance. Projectile motion is the act of projecting an object into the air at an angle when a curved path is an object follows when thrown or propelled near the surface of the earth.For example: a thrown football‚ an object dropped from an airplane‚ or a bullet shot from a gun.Projectile motion may only be used to solve mechanics problems if the acceleration is constant.The path followed by a projectile is
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Investigating Projectile Motion Introduction Projectile motion is a type of motion that consists of horizontal and vertical motions which are independent from each other‚ known as vector components. For an object to be considered a projectile‚ it must not be self-propelled. Projectiles move horizontally at a constant velocity. However‚ they undergo uniform acceleration in the vertical direction‚ which is caused by gravity. An important aspect of projectile motion is that the time it takes
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AN INVESTIGATION OF PROJECTILE MOTION Designing a Projectile Launcher: An Investigation Of Projectile Motion Mark Clubine KitchenerWaterloo Collegiate Institute and Vocational School 1 AN INVESTIGATION OF PROJECTILE MOTION 2 Introduction Projectile motion is a form of motion where an object (called a projectile) is thrown near the earth’s surface‚ following a parabolic path being influenced only by gravity (Science Clarified
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gears or parts of a system. Their mechanics are similar to the wheel and axle. | Clock‚ Wheels of a A clock is run by wheels. Each wheel turns another to keep the clock running.... | | Cog-wheel "A small projection in machinery‚ used to impart motion. C. wheel‚ a wheel having cogs on its circumfrence." — Williams‚ 1889... | | Crown-wheel A wheel with cogs or teeth at right angles to its plane.... | | Drill‚ twist bit Twist drill bit.... | | Epicycloidal Teeth "Epicycloidal teeth‚ teeth
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TITLE To investigate the trajectory of a small ball as it rolls off a surface which is inclined to the horizontal. OBJECTIVE To investigate the trajectory of a two dimensional motion APPARATUS & MATERIALS Ramp Wooden block Pendulum bob Plumb line Steel ball Wooden board Carbon paper Meter rule Plasticine SETUP 1. A ramp has been set up at the edge of a bench as shown in the Figure 4-1. 2. Suspend a plum-line from the edge of the bench as shown in Figure 4-2. 3. Mount
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