Linear Motion In One Dimension Lab Report Example | Topics and Well Written Essays - 500 words

Linear Motion In One Dimension - Lab publish ExampleAll freely falling objects experience a downward acceleration. Using the symbol g to represent such special acceleration, the value increases with diminish altitude. The value of g is around 9.8 m/sec2 at the earths surface. Because friction is neglected and the assumption is made that the free fall is not interdependent on altitude over short distances, the motion of the freely falling objects is equal to the motion in a single dimension under eonian acceleration thus making it possible to apply constant acceleration equations.The recorded coefficient r values are both close to 1 indicating that the plan points are closer to the experimental values. As per the recorded values, the increasing x values had a positive gradient whereas the decreasing x values had a negative gradient. Therefore, it is true that X increases at a constant rate with time, hence equation 1 is justifiedThe velocity after the bounce was high because of the impulsive force exerted on the glider at the bilks end. Again, the recorded value of acceleration is reasonable because the velocity is reversed at the tracks end meaning there was a moment when no acceleration is acting on the glider.In the inclined track, the glider was observed to survive under a constant acceleration before or after bouncing and this is in harmony with equation 1 which states distance has a aspire proportion to the square of time. The slope of velocity against time line matched the previously calculated acceleration value. The slopes of the velocity time interprets in the inclined track with the sextet blocks also matched the earlier on calculated acceleration value.The trend observed in the all the three cases validates the linear motion equations. An analysis of the drawn graph gives acceleration values that are consistent proving that constant acceleration equations can be used in describing linear motion in one