Consider the following data for the table below: • Distance = 101 cm • Time of Travel (Trial 1) = 1.054 s • Time of Travel (Trial 2) = 1.096 s • Time of Travel (Trial 3) = 1.063 s Newton's 20nd Law on the Acceleration of Cart Added Mass Suspended on the Cart (g) Mass (g) 100 Time of Travel (s) Trial 3 Trial 2 Acceleration (m/s Average Theoretical Experimen (A) Mass of the Cart (g): Percent Error (%) Trial 1 1.633 (B) 500 Distance (em): Calculate the percent error between the theoretical and experimental acceleration of the cart in (B). 7.27% 3.77% 7.84% 7.55%
Consider the following data for the table below: • Distance = 101 cm • Time of Travel (Trial 1) = 1.054 s • Time of Travel (Trial 2) = 1.096 s • Time of Travel (Trial 3) = 1.063 s Newton's 20nd Law on the Acceleration of Cart Added Mass Suspended on the Cart (g) Mass (g) 100 Time of Travel (s) Trial 3 Trial 2 Acceleration (m/s Average Theoretical Experimen (A) Mass of the Cart (g): Percent Error (%) Trial 1 1.633 (B) 500 Distance (em): Calculate the percent error between the theoretical and experimental acceleration of the cart in (B). 7.27% 3.77% 7.84% 7.55%
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:Consider the following data for the table below:
• Distance = 101 cm
• Time of Travel (Trial 1) = 1.054 s
• Time of Travel (Trial 2) = 1.096 s
• Time of Travel (Trial 3) = 1.063 s
%3D
%3D
Newton's 2nd Law on the Acceleration of Cart
Added Mass Suspended
on the Cart (g) Mass (g)
Time of Travel (s)
Trial 3
Acceleration (m/s
Average Theoretical Experimen
Percent
Error (%)
Trial 1
Trial 2
100
1.633
(A)
(B)
Mass of the Cart (g):
Distance (em):
500
Calculate the percent error between the theoretical and
experimental acceleration of the cart in (B).
7.27%
3.77%
7.84%
7.55%
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