Title: Uniform Circular Motion Objective: To investigate the relationship between FnetT² and radius Proposed Hypothesis: FnetT² is directly proportional to the radius Manipulated variable: Radius of the circular motion Responding variable: The time taken for 20 rotations Controlled variables: The mass of the rubber stopper‚ the mass of the weight hanger‚ the total weight of the slotted weight‚ the length of the PVC tube Apparatus and Materials: rubber stopper‚ stopwatch‚ weight
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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 two different equations are needed.
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From the introduction up to chapter 7 in the reading of “Cultures in Motion” by author Peter N. Stearns‚ does a profound job in doing what was expressed would be done within the first few pages of his book. The basis of focusing on many different cultures and the encompassing contact was very focused and cut down to a short straight to the point style but was given a wide range of a big picture of most of the cultures and their history. The way Peter splits chapters one through seven into two parts
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DAVIDSON COUNTY‚ TENNESSEE DALE M‚ ROEHNIG‚ a Minor‚ By JAMES J. ROEHNIG‚ Father and Next Friend; LINDA F. ROEHNIG‚ Mother and Next Friend‚ Plaintiffs‚ vs. No. HERMAN A. SHULMAN Defendant. MOTION FOR A JUDGMENT BY DEFAULT WHEREFORE‚ the Plaintiffs sue the Defendant and demand a jury to try this case. The Plaintiff should be awarded Twenty-two Thousand Dollars ($22‚000). Both‚ the Plaintiffs and Defendant were residents of Davidson County
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Case Problem 2: The Motion Picture Industry This case provides the student with the opportunity to use numerical measures to continue the analysis of the motion picture industry data first presented in Chapter 2. Developing and interpreting descriptive statistics such as the mean‚ median‚ standard deviation and range are emphasized. Five-number summaries and the identification of outliers are also of interest. Interpretations and insights can vary. We illustrate some below. Descriptive Statistics
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Freefall and Projectile Motion Introduction and Objectives This lab experiment was done to determine the characteristics of free fall and projectile motion in Physics. The motion in which a body is thrown or projected is called Projectile motion while free fall is any motion of a body where gravity is the only force acting upon it‚ at least initially. In this experiment‚ a photogate‚ a chopper‚ and a Universal Lab Interface were used to determine the free fall motion of the chopper as it was
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STOP MOTION TECHNIQUE Stop motion animation‚ as other animation techniques‚ has the purpose of giving life to objects (Nancy basile‚ 2006)‚ the process is simple‚ they take a picture of the objects and then continue repositioning them continuously taking more pictures of the same objects to create a sequence of consecutive images that can give the viewer the illusion of motion. One common form for this animation is claymation. BACKROUND OF THIS TECHNIQUE Stop motion animation has been in the
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Class XI Exercise 4 – Motion in a Plane Physics Question 4.1: State‚ for each of the following physical quantities‚ if it is a scalar or a vector: volume‚ mass‚ speed‚ acceleration‚ density‚ number of moles‚ velocity‚ angular frequency‚ displacement‚ angular velocity. Answer: Scalar: Volume‚ mass‚ speed‚ density‚ number of moles‚ angular frequency Vector: Acceleration‚ velocity‚ displacement‚ angular velocity A scalar quantity is specified by its magnitude only. It does not have any
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Conclusion to Motion Lab Kerreon Wright 3rd Period Ms. Gislason The purpose of this Motion Lab was to find the acceleration of a steel marble going down a straight track six different times to figure out how an object’s mass affects acceleration. It doesn’t due to Newton’s second law of motion. There were six different accelerations for each trial and they are: 7.88 m/s squared‚ 6.78 m/s squared‚ 6.07 m/s squared‚ 5.57 m/s squared‚ 4.32 m/s squared‚ and 5.11 m/s squared. It’s possible
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Kyle Brooks 11/13/12 Angry Birds Projectile Motion Lab How to Perfect Distances Of Birds using Launching Angles Purpose: The Purpose of this Lab is to discover which launch angles give the birds the longest and shortest time in flight. Hypothesis: I believe that the bird will launch the farthest at the 45 degree angle because that’s exactly half of 90 degrees which will give it the maximum height in comparison to length. I also think that the bird will launch the shortest at 0 degrees
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