Assume that you are standing on a chair with a stopwatch and a small object in your hands. You drop this object five (5) times from a height of h = 2.12 m and record the time is takes for the object to hit the ground. Your times (t) are given in the following table time t (s) 0.72 0.6 0.56 0.50 0.68 Using the data above calculate the average time (t) and the sample standard deviation for your times and present your value with proper rounding below. t = 0.61 Question 11 0.09 S 1 pts Using the definition of uniform acceleration (a = g = A), calculate the final velocity of your freefalling object in Question 10.
Assume that you are standing on a chair with a stopwatch and a small object in your hands. You drop this object five (5) times from a height of h = 2.12 m and record the time is takes for the object to hit the ground. Your times (t) are given in the following table time t (s) 0.72 0.6 0.56 0.50 0.68 Using the data above calculate the average time (t) and the sample standard deviation for your times and present your value with proper rounding below. t = 0.61 Question 11 0.09 S 1 pts Using the definition of uniform acceleration (a = g = A), calculate the final velocity of your freefalling object in Question 10.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:Assume that you are standing on a chair with a stopwatch and a small object in
your hands.
You drop this object five (5) times from a height of h = 2.12 m and record the
time is takes for the object to hit the ground.
Your times (t) are given in the following table
time t (s)
0.72
0.6
0.56
0.50
0.68
Using the data above calculate the average time (t) and the sample standard
deviation for your times and present your value with proper rounding below.
t =
0.61
Question 11
0.09
S
1 pts
Using the definition of uniform acceleration (a = g = A), calculate the final
velocity of your freefalling object in Question 10.
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