Answered step by step
Verified Expert Solution
Question
1 Approved Answer
Lab 6 Work & Conservation of Energy PHY250L EXPERIMENT 1: BALANCING CENTRIPETAL FORCE Data Table Table 1. Spring Scale Force Data Force (N) Distance, x
Lab 6 Work & Conservation of Energy PHY250L EXPERIMENT 1: BALANCING CENTRIPETAL FORCE Data Table Table 1. Spring Scale Force Data Force (N) Distance, x (m) ForceAverage (N) Distance, Ax (m) Work (J) 0 0 .38 0.01 0038 .75 0.01 1.2 0.01 .0012 1.8 0.02 2.15 0.01 .0215. 2.5 0.03 2.87 0.01 0287 3.5 0.04 3.8 0.01 038 4.5 0.05 Post-Lab Questions 1. Create a Force versus Displacement (stretch) graph. Handwrite your name next to your graph.Lab 6 Work & Conservation of Energy PHY250L EXPERIMENT 2: CONSERVATION OF ENERGY Data Table Table 2. Bounce Back Height for Various Objects Average Height (to) Ping Pong Ball 0.38 0.39 0.385 0.385 Soccer Ball 0.35 0.35 0.35 0.353 Golf Ball 0.24 0.235 0.255 0.243 Post-Lab Questions 1. Use Table 3 to calculate the potential and kinetic energy of each ball during different stages of its motion. Record your data in Table 4. Table 3: Mass of Common Types of Sporls Balls Ping Pong ball 0.0027 Racquetball 0.042 Golf ball 0.045 Tennis ba" ' 057 Soccer ball 0.43 Basketball 0.62 11 Table 4. State of Energy at Various Points in Motion Lab 6 Work & Conservation of Energy PHYZSDL Ball TYPO FEM mums KEbeore bounce PEm max helght TE KEafter bounce Ping?\" 001on 0.0132J 0.01013 J 0.00305J 0.01018J Soccer Ball 2.107 J 2.107 J 1.4375 J 0.5195 J 1.4375 J Golf Ball 0.2205 J 0.2205 J 0.1071 J 0.1134 J 0.1071 J 2. Calculate the speed of the ball right before and right atter the bounce. Click here to enter text. Data Table Table 5. Dropped Ball Data Time (s) Ball Position Ball Velocity Potential Kinetic Total (m) (m/s) Energy (J) Energy (J) Energy (J) 0.00 5.00 0.05 4.99 -0.4 24.45 0.04 24.46 0.10 4.96 -1 24.30 0.09 24.39 0.15 4.89 -1.8 23.96 0.49 24.45 0.20 4.78 -2.2 23.42 . 1.21 24.63 0.25 4.69 -1.8 22.98 0.81 23.79 0.30 4.54 -3 22.25 2.25 24.5 0.35 4.40 -2.8 21.56 1.96 23.92 Time (s) Ball Position Ball Velocity Potential Kinetic Total (m) (m/s) Energy (J) Energy (J) Energy (J) 0.40 4.22 -3.6 20.68 3.24 24.44 0.45 4.00 -4.4 19.6 4.84 22.62 0.50 3.80 -4 18.62 4 26.15 0.55 3.50 -6 17.15 9 21.73 0.60 3.26 4.8 15.97 5.76. 25.25 Lab 6 Work & Conservation of Energy PHY250L 0.65 2.93 -6.6 14.94 10.89 23.63 0.70 2.60 -6.6 12.74 10.89 24.62 0.75 2.23 -7.4 10.93 13.69 24.62 0.80 1.88 -7 9.21 12.25 21.46 Ball Position Potential Time (s) Ball Velocity Kinetic Total (m) m/s) Energy (J) Energy (J) Energy (J) 0.85 1.46 -8.4 7.15 17.64 24.79 0.90 1.05 -8.2 5.15 16.81 21.96 0.95 0.58 -9.4 2.84 22.09 24.93 1.00 0.11 Post-Lab Questions 1. Graph the potential energy, kinetic energy, and total energy of the ball.2. Describe the shape of each graph. Click here to enter text
Step by Step Solution
There are 3 Steps involved in it
Step: 1
Get Instant Access to Expert-Tailored Solutions
See step-by-step solutions with expert insights and AI powered tools for academic success
Step: 2
Step: 3
Ace Your Homework with AI
Get the answers you need in no time with our AI-driven, step-by-step assistance
Get Started