CFIPH assistance w linear motion

1. WALKING SLOWLY AWAY Logger Pro is used to collect constant velocity data for an object (a student) moving slowly away. This data is used to calculate velocities. 1.1 DATA Stand 0.5 m from the detector. Have your lab partner click on “Collect”. Walk slowly and steadily (at constant velocity) away from the detector as it collects data. Your graph of position as a function of time should be close to a straight line (which indicates constant velocity). If not repeat until you get good, straight data. Copy the data into an Excel spreadsheet. (The data is in a separate file on Brightspace indexed by lab section.) 1.2 COMPUTE AVERAGE VELOCITY MANUALLY Using only the first and last data points, calculate the velocity (v) using the equation in the theory. Repeat using a second set of data points, each about a quarter of the total time in from both ends of the data set (for instance, you could use the 6th and 25th data points). Repeat again for a third pair of points, each about a third of the total time in from the ends of the data set (for instance, the 11th and 19th points). Using the three velocities you have calculated, calculate the average velocity and its standard deviation. (All these calculations need to be recorded in your Excel sheet, and you need to show which data points you used.) 1.3 AVERAGE VELOCITY BY LINEAR FITAnother way to find the velocity is to fit the data to astraight line. In your spreadsheet, plot your data andadd a linear trendline. The slope of the trendline is thevelocity. Be sure your chart has a title, labels for the xand y axes, and that the trendline is readable.2. WALKING QUICKLY TOWARDSThe experiment is repeated for a faster velocity, onlythis time the student walks towards the detector.2.1 COLLECT DATAStand 2 m from the detector. Have your lab partnerclick on “Collect”. Walk quickly but steadily (at constantvelocity) towards from the detector as it collects data.Repeat until you get a good, straight line of data. Copythe data into an Excel spreadsheet. (The data is in aseparate file on Brightspace indexed by lab section.)2.2 CALCULATING VELOCITYRepeat 1.2 and 1.3 using this new set of data. (Your velocities will be negative.)3. VARIABLE MOTIONThe student now walks a variable path in front of the detector. Using the provided data, you willanalyze the path they walked.3.1 COLLECT DATAStand within the detector range (either close or far). Have your lab partner click on “Collect”. Walkwithin the range of the detector for 5 seconds. Try to walk a path that includes forward andbackward motion and a period of standing still. Always try to maintain constant velocity while youare moving. Enter the data into an Excel spreadsheet. 3.2 INSPECT DATAPlot the data using Excel (including a title and labels). Enlarge your chart so you can clearly seeindividual data points. As you move your mouse pointer over the points it will identify the data thatcorresponds to that point, which allows you to analyze data point-by-point. Looking at the chart,identify when the student was walking toward, when they were walking away and when they werestanding still. (In your report you will describe how they walked in words.)3.3 CALCULATE VELOCITIESUsing the manual method (as described in 1.2) calculate (in Excel) the velocity of the student whenthey were walking toward and when they were walking away from the sensor. (You’ll compare thetwo speeds in your report.)3.4 CALCULATE THE AVERAGE VELOCITYUsing the equation in the theory, calculate (in Excel) the average velocity of the student over theentire 5 seconds.Questions1. For part 1 (walking away), what was the velocity you calculated manually, and the one youobtained by fitting the data? Do the two agree? Why or why not? Which of the two do you believewas most accurate and why?2. For part 2 (walking towards), what was the velocity you calculated manually, and the one youobtained by fitting the data? Do the two agree? Why or why not? Why were your velocitiesnegative for this data set?3. For part 3 (variable path), in a single sentence describe in detail how the student walked tocreate this data. Were they faster walking toward or away from the sensor? What was theiraverage velocity for the entire five seconds?he data for this lab is in a separate Excel file on Brightspace