Which of the following would help determine if the acceleration of the glider constant or not? (There is more than one correct answer.) elect all that apply: Collect position and time data from the video. Use that data to plot a graph of position versus time. If the acceleration is constant then x (t) = xo + vot + zat² and the graph will be parabolic in shape. Measure the position of the glider at random points in time and examine them more carefully. Measure the initial and final positions of the glider and the time it took to travel that distance and divide the distance by the time. Collect position versus time data from the video at regular time intervals, plot a graph of average velocity versus time for each time interval. If the resulting graph is linearly increasing, the acceleration of the glider is constant.
Which of the following would help determine if the acceleration of the glider constant or not? (There is more than one correct answer.) elect all that apply: Collect position and time data from the video. Use that data to plot a graph of position versus time. If the acceleration is constant then x (t) = xo + vot + zat² and the graph will be parabolic in shape. Measure the position of the glider at random points in time and examine them more carefully. Measure the initial and final positions of the glider and the time it took to travel that distance and divide the distance by the time. Collect position versus time data from the video at regular time intervals, plot a graph of average velocity versus time for each time interval. If the resulting graph is linearly increasing, the acceleration of the glider is constant.
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Transcribed Image Text:2. Which of the following would help determine if the acceleration of the glider constant or not? (There is more than one correct
answer.)
Select all that apply:
000 0
Collect position and time data from the video. Use that data to plot a graph of position versus time. If the acceleration is
constant then x (t) = xo + vot + at² and the graph will be parabolic in shape.
Measure the position of the glider at random points in time and examine them more carefully.
Measure the initial and final positions of the glider and the time it took to travel that distance and divide the distance by the time.
Collect position versus time data from the video at regular time intervals, plot a graph of average velocity versus time for each
time interval. If the resulting graph is linearly increasing, the acceleration of the glider is constant.
Collect position versus time data from the video at regular time intervals, plot a graph of average velocity versus time for each
time interval. If the resulting graph is flat, the acceleration of the glider is constant.
Collect position and time data from the video. Plot a graph of displacement Ax versus time squared (t²). If the resulting graph is
linearly increasing the acceleration is constant.
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