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answer this question (b) Force Graph module: Determine the final velocity of the mystery object for the frictionless ramp and compare it with the expected

answer this question "(b) Force Graph module: Determine the final velocity of the mystery object for the frictionless ramp and compare it with the expected (i.e., theoretical) value." using the website https://phet.colorado.edu/en/simulations/ramp-forces-and-motion

Lab report based on (b) Force Graph module: Determine the final velocity of the mystery object for the frictionless ramp and compare it with the expected (i.e., theoretical) value." us the website above

  • Title
  • Introduction/Goal:One-two paragraphs explaining what you are trying to accomplish in your experiment. which is Determine the final velocity of the mystery object for the frictionless ramp and compare it with the expected (i.e., theoretical) value.
  • Theory:include the theoretical model of your experiment, if there is any.
  • Data:in most cases data should be presented in table or tables. Note that in some instances the data will consist of screenshots of the simulation.
  • Graphs:if possible, construct a graph showing that the data follows the theory, some trends, etc. In some instances you may include screenshots of the simulation as graphs.
  • Data analysis:Use your data and graphs to obtain the quantities you're looking for
  • Results: Discuss your results and how they compare with the expected/theoretical values.
  • Conclusion: Discuss what you think that was the most important result or results obtained, and/or how you could have improved the experiment. If theoretical values are available (e.g.,gravitational acceleration constant is expected to be g =9.80 m/s2) determine the error of your experiment using |experimental value - theoretical value| /|theoretical value| written as a percentage (e.g., your gexperimental is 9.42 m/s2, so your error for g is |9.42 m/s2 - 9.80 m/s2| / |9.80 m/s2|= 0.039 =3.9 % ).

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