Tuesday, February 26, 2019
Analysis of newton’s second law lab
Law Lab The first lab we did for chapter 4, Newtons Second Law, dealt with the relationships between force, acceleration, and mass. Our finale was to verify Newtons Second Law that says force is equal to the mass reckon by the acceleration. Our procedures included setting up the lab according to the directions and stack away data as someone moved the walker that we set up forward and backward in two settings with special mass and without additional mass.For the part where we had to attach mass, we detect that the mass can be rotate sideways as we did our data collecting, so we decided to fix its speckle with tape, which did not affect the significant digits of the mass. After we were done with both trials, we showed linear relationships for both the force vs Acceleration graphs. In our first trial, we had a . 629 keg cart and an equation of F=O. AAA+O. 1289 in our second trial, we had a 1 . 143 keg cart with the added mass and an equation of F=l . AAA-1. 075. In the equatio ns, F represented force and a represented acceleration.We observed in the equations that he slope of the graphs were equal to, ignoring the insignificant digits, the mass of the cart used in the corresponding trials. The data were viable the observations that we had do complete sense to us since we knew that force is equal to mass times acceleration. The y-intercept, however, was unexpected y Intercepts were not present in the second law of Newton. The change magnitude/decreased force then, I presumed, must have been caused by discrepancies made from minor friction caused by the wheel of the cart. Experiments regarding these y-landscapes should also be provoke future experiments.
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