Name: Lab Group 4 Date: 10/26/2011 Partners: Kayla Stephens‚ Robin Poole‚ Megan McIlvoy Grade: Instructor: JPS Name: Lab Group 4 Date: 10/26/2011 Partners: Kayla Stephens‚ Robin Poole‚ Megan McIlvoy Grade: Instructor: JPS Physics I Laboratory Worksheet Lab 4: Projectile Motion Objectives: Using a projectile gun on an incline plane‚ calculate the velocity of the steel ball at ten different distances‚ then find the average velocity. In order to find the velocity of the steel ball
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Practice Projectiles (Source for the first five problems WWW.MIAMI-BEST-MATH-TUTOR.COM‚ 1. 1. A physics book slides off a horizontal table top with a speed of 1.10 m/s. It strikes the floor in 0.350 s. Ignore air resistance. Find the height of the table top above the floor; the horizontal distance from the edge of the table to the point where the book strikes the floor; the horizontal and vertical components of the book’s velocity‚ and the magnitude and direction of its velocity‚ just before
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sorry if this isdissappointing to you hold on Physics Pre-AP Projectile Motion Lab Report Purpose The purpose of this lab was to determine how angle and gravity affects velocity and range. Procedure Materials Projectile launcher Marble Two measuring sticks Tin foil Pencil Procedure Set the angle of the projectile launcher to 30 degrees (make sure that the bottom of the launcher is even with the desk). Put the marble inside the projectile launcher‚ and using the pencil‚ push the marble
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Lab Report: Projectile MotionChange Launch Angle 03/05/2012 James Allison section 20362 Group 5 James Allison‚ Clint Rowe‚ & William Cochran Objective: In this lab we will compare different parameters of a launched projectile. This includes time of flight‚ initial velocity‚ initial vertical velocity‚ initial horizontal velocity‚ range‚ time of max height. All these data points are collected for 30°‚ 40°‚ 45°‚ 50°
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Projectile Motion You have probably watched a ball roll off a table and strike the floor. What determines where it will land? Could you predict where it will land? In this experiment‚ you will roll a ball down a ramp and determine the ball’s velocity with a pair of Photogates. You will use this information and your knowledge of physics to predict where the ball will land when it hits the floor. [pic] Figure 1 objectives * MEASURE THE VELOCITY OF A BALL USING TWO PHOTOGATES AND
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19 Appendix 2 21 Appendix 3 23 Appendix 4 25 Appendix 5 26 Appendix 6 28 Appendix 7 30 Appendix 8 31 Appendix 9 33 Appendix 10 35 Background Information Sport relies on three major physics concepts: force‚ acceleration and velocity; many of which involve elastic propulsion and/or projectile motion. Various types of sporting equipment are constructed with springs and elastics‚ in order to absorb a force or apply a force to another object. In the context of this investigation‚ the spring
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Name __ Projectile Motion Go to http://phet.colorado.edu/simulations/sims.php?sim=Projectile_Motion and click on Run Now. Pre Lab Reflections: What are the What forces are at play on a body under fall? Gravity plays a part in force on the weight of your body. Make a prediction of which angle results in maximum range. I predict that the 45 degrees will result in max range. Activity: Open the sim‚ projectile motion. Familiarize yourself with the variables shown there. Ensure
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| Projectile Motion Lab | | | | Projectile Motion Lab | | | March 14‚ 2012 Authored by: Abby Buchanan and Zack Sloope March 14‚ 2012 Authored by: Abby Buchanan and Zack Sloope Projectile Motion Lab Predictions: Angle: The angle will affect the height. Initial Speed: This will affect the distance and force. Mass of Projectile: It affects how much force is needed. Size and Shape of Projectile: It will affect the distance. Terms: Range: distance an object goes
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Title Projectile Motion Abstract A projectile was fired from atop an elevation and an angle. The initial velocity for each firing was likely to be the same. The distance traveled in the horizontal direction was measured for multiple firings of each trial‚ and the values were averaged. When the initial velocity for each of these averages was calculated it was proved that the initial velocity was relatively constant. These measurements had many possible sources of error including air resistance and
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Procedures: Create a ramp that can be a repeatable launcher for your marble‚ one in which the marble will not bounce once hitting ground surface. Take 2 photogates and place them 10 centimeters apart‚ along the edge of the table. (d) The photogates are instruments that will time the marbles speed. Measure the height (h) carefully‚ in which is vertical to the floor. Time the marble several times as you launch it from the ramp; make sure to catch the marble as it leaves the table. Use the
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