Projectile Motion Lab Report Objectives: This laboratory experiment presents the opportunity to study motion in two dimensions‚ projectile motion‚ which can be described as accelerated motion in the vertical direction and uniform motion in the horizontal direction. Procedures and Apparatus: |Rubber Ball |White sheets of papers | |Metal Track |Water | |Books |Table | |Meter-stick
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Projectile Motion Experiment # 4 Introduction: Projectile Motion exists commonly in our everyday lives and is particularly evident in the motion or flight of objects which are projected from a particular height. The key to working with projectile motion is recognizing that when an object with mass is flying through the air‚ its motion is a combination of vertical and horizontal movements. Although the horizontal velocity of the object remains constant throughout the flight‚ it’s vertical velocity
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Curvilinear Motion Projectile Motion When the player hits the “Sepak”‚ the motion of the “Sepak” is called projectile motion. The “Sepak” itself is called projectile. The “Sepak” will follow a parabolic path called trajectory especially if air resistance is negligible. Two coordinates are usually used to describe projectile motion: horizontal and vertical axes. The horizontal distance traveled by the projectile is called the range. While the vertical distance‚ that is‚ the distance from where
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extensors of the kicking limb (H1) work positively to extend the hip until toe-off at t=0.28 s. After slight delays‚ the ankle plantiflexors (A1) performed positive work to push away from the floor; at the same time the knee flexors (K1) actively flexed. 2. After the leg is in swing (at t=0.28)‚ the hip flexors acted to flex the hip (H2). Very close before contact‚ the hip extensor moment dominated to stop hip flexion and extend the knee and foot towards the pad. On the other hand‚ the knee flexors transition
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Projectile Motion Objectives: The purpose of this experiment is to examine the projectile motion of a ball launched horizontally. The initial velocity will be calculated. The range of the ball will be measured. Theory: Horizontal launch of the ball allows computing the initial velocity v0 by measuring the height of the launch and the distance traveled by the ball: h=‚ s=v0 ∙ t Solving these parametric equations for v0 gives us: 0=s Where h and s are defined from the
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______________________________ |Laboratory Report Scoring Rubric | | |4 |3 |2 |1 |0 | |Form and Format | | | | | | |Title Page |N/A
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Projectile motion into physics Objective: Our purpose for this lab was to observe projectile motion and use the equations of motion to predict the objects location in different instances of time. We used a projectile launcher and a ball to observe these properties of motion. The main equation used in this lab was d=Vit+1/2at^2 where Vit will produce the distance due to constant motion and 1/2at^2 will produce distance traveled due to accelerated motion or gravity in this case. Introduction:
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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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Action No. 11-CIV-012345 ) ) versus ) ) Anheuser - Busch ) Judge Julie James ) Defendant ) __________________________________________) MOTION TO COMPEL DISCOVERY Pursuant to Rule 37 of the Federal Rules of Procedure‚ the Defendant in this case‚ Anheuser-Busch‚ by its counsel‚ moves this court for the entry of an order compelling the Plaintiff to fully comply with the Defendant’s discovery requests and cure the discovery deficiencies within
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