A free-fall spark track experiment determines the acceleration due to gravity to be g1 = (9.76 0.04±) m/s2 . A pendulum experiment determines the acceleration due to gravity to be g2 = (9.83 0.09±) m/s2 . The accepted value for the acceleration due to gravity is g = (9.81 0.01±) m/s2 . Are the two experimental results consistent with the accepted value? Which of the two experimental results is more accurate? Which is more precise?
A free-fall spark track experiment determines the acceleration due to gravity to be g1 = (9.76 0.04±) m/s2 . A pendulum experiment determines the acceleration due to gravity to be g2 = (9.83 0.09±) m/s2 . The accepted value for the acceleration due to gravity is g = (9.81 0.01±) m/s2 . Are the two experimental results consistent with the accepted value? Which of the two experimental results is more accurate? Which is more precise?
Related questions
Question
-
A free-fall spark track experiment determines the acceleration due to gravity to be g1 = (9.76 0.04±) m/s2 . A pendulum experiment determines the acceleration due to
gravity to be g2 = (9.83 0.09±) m/s2 . The accepted value for the acceleration due to
gravity is g = (9.81 0.01±) m/s2 . Are the two experimental results consistent with the
accepted value? Which of the two experimental results is more accurate? Which is more precise?
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 2 steps