II. Graphical Analysis 1. A student conducted an experiment purposing to measure the acceleration due to gravity. Using the set-up he devised, he was able to measure the velocity magnitude v of an object that fell from rest under the action of constant gravitational field after some time t. his data are as follows: I (s) 0.1000 0.2000 v (m/s) 0.980 1.692 2.912 0.3000 0.4000 0.5000 3.111 4.773 5.812 6.777 0.6000 0.7000 0.8000 7.835 0.9000 1.0000 8.888 9.123 Find the acceleration due to gravity. Hint: Graph the following values. Obtain the stope and y-intercept. Remember v = V, + gt? Does the format of the looks similar to the slope and y-intercept equation of a line?
II. Graphical Analysis 1. A student conducted an experiment purposing to measure the acceleration due to gravity. Using the set-up he devised, he was able to measure the velocity magnitude v of an object that fell from rest under the action of constant gravitational field after some time t. his data are as follows: I (s) 0.1000 0.2000 v (m/s) 0.980 1.692 2.912 0.3000 0.4000 0.5000 3.111 4.773 5.812 6.777 0.6000 0.7000 0.8000 7.835 0.9000 1.0000 8.888 9.123 Find the acceleration due to gravity. Hint: Graph the following values. Obtain the stope and y-intercept. Remember v = V, + gt? Does the format of the looks similar to the slope and y-intercept equation of a line?
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