Ball bounce lab. With drop height of 90 cm, ball bounces to about 47 cm.
Ball bounce lab. ONE MEASURER HOLDS THE METER STICK UP AGAINST THE WALL.
Ball bounce lab Then, students investigate how different balls bounce by dropping them from various heights and create graphs to show their findings. These balls are carefully created with special features to make playing each sport a fun and exciting experience. Run Simulation: Click the “Simulate” button to see the bounce heights for the first 5 bounces after the ball drops. BALL BOUNCE LAB: A Lesson on Potential and Kinetic Energy. Science Activity: Bouncing Balls. 1. Oct 6, 2023 · Many of today's popular sports, like soccer, basketball, and tennis, involve using balls, but each ball is unique in its own way. Then, students investigate how different balls bounce by Balls Simulation - phydemo. (1998). Bouncing Ball Lab Name_____ Per___Date _____ Problem: How does energy change form in two different kinds of bouncing balls? Objective: You will determine the energy transformations in two different kinds of bouncing balls by collecting and analyzing drop height and bounce height data. Here is another activity that tests temperature and bounce using golf balls and baseballs: Exploratorium Staff. Collision Lab - PhET Interactive Simulations The results of the lab demonstrated that as the heights from which the bouncy ball was dropped from increased, so did the rebound percentage; the graph shows a positive correlation. Answers will vary. for Middle and High School Students (See worksheet: EXPLORE Ball Bounce Lab Worksheet) bouncing balls are a mostly elastic deformation but some energy is converted to sound and heat and ‘lost’ to the height of return. app GitHub Repo 2000. pdf), Text File (. 4. MEASURER 2: MEASURES AND RECORDS THE GREATEST HEIGHT THAT THE BALL REACHES AFTER ITS 2ND BOUNCE. One way to measure the amount of elasticity is the coefficient Oct 6, 2023 · Students explore the concept of reverse engineering to understand how and why engineers use it. C. The Exploratorium Museum, San Francisco, CA. balls by collecting and analyzing drop height and bounce height data. 2. With drop height of 90 cm, ball bounces to about 47 cm. Objective: to determine the relationship between height and gravitational potential energy. 60 cm, ball bounces to about 32 cm. The ball would bounce twice as high— about 94 cm. 180 cm is 3 times 60 cm. Various balls (super balls, basketballs, playground balls, tennis balls, golf balls or other), brick wall made of cinder Ball bounce lab - Free download as PDF File (. Students explore the concept of reverse engineering to understand how and why engineers use it. D. Set Ball Mass: Adjust the “Ball Mass (kg)” slider. The standard deviation was calculated for each average value to see how close the observed values were to the mean. What is the relationship between the height from which a ball is dropped and the height to which it bounces? Procedure: You are to design a lab experiment to answer this question. See Content Note, What’s Close? in lesson 4. ONE MEASURER HOLDS THE METER STICK UP AGAINST THE WALL. THE DROPPER HOLDS THE BALL AT THE 160cm TAPE MARK ON THE WALL, 6-8 INCHES FROM THE WALL. Once the ball is less sticky, continue rolling between your hands until it is smooth and round! Observations & Data Collection: (Write quantitative and qualitative observations about your ball that will help you determine how well your ball bounces. Note: This simulation is a simplified model designed to focus on key variables, such as drop height, ball mass, and elasticity. Ball Bounce Lab. Predictions: How do you think bounce height will depend on drop height for each kind of ball? Discuss both similarities and differences you expect to see. Procedure: Follow the steps below to conduct your experiment. ) Image Credit: Kristin Strong, Science Buddies / Science Buddies Drawing shows a bouncy ball at four different stages as it is dropped and bounces off of the ground. Retrieved August 4, 2006. Problem: How does the drop height (gravitational potential energy) of a ball affect the bounce height (kinetic energy) of the ball? Materials: List all the materials used in this experiment. txt) or read online for free. 2 Method Experimental Set-up: This experiment was carried out using a meter stick and two similar bouncy balls [Fig. 180 cm is twice 90 cm. How does the height from which a ball is dropped affect the height to which it bounces after hitting a hard surface?. The ball will start out sticky and messy, but will solidify as you knead it. At the start time, the ball is held by a hand above a surface, displaying gravitational potential energy about to turn into kinetic energy. ball with your hands. Finding the experimental value of g by bouncing a ball and measuring the time it takes for it to hit the ground at various heights. So the ball would bounce 3 times as high or about 96 cm. A ball bouncing on an oscillating table is a frequently studied model system to explore and demonstrate the properties of nonlinear dynamic systems, such as fixed points, periodic and strange attractors, and period-doubling bifurcations to chaos 1. 1] that will be labelled Ball 1 and Ball 2 for the purpose of this lab report. That's The Way The Ball Bounces. 11 . iypyfh ufyag fqox jfbbtmh tmf okgyilpq hiwvg lterhdri bfdiv tgtih fznyv szstmsv lrpxmni nvtdz jlrmx