Related Questions: 1. Friction at the point of suspension and air resistance will tend to increase the period of the pendulum over that of the theoretical value. Would this tend to make the experimental value for g too high or too low? 2. Simulate a stronger gravitational force by placing a strong magnet a few centimeters below the center of the steel ball so that as the ball swings, it is pulled both by the carth's gravity and the magnet. How does this affect the period of the pendulum? How would this affect the experimental value of g ?

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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please help with questions 1 and 2
5. Lengthen or shorten the pendulum string and repeat the above steps for as many trial.
as time permits. Calculate the value of g for each set of values L. and T. In each case
calculate your percentage error by finding the difference between your experimental value
and the standard value, 9.8 meters / sec, dividing this difference by the standard value,
and multiplying by 100%
Data Table
Pendulum
length (L)
(meters)
Time for 20
swings
t (sec)
Period
(T)
(sec)
E
Percent error
Trial
8-4
(m / see")
T
O.12 m
14.775
17.865
0.14$
2.
o16 m.
O.89S
3.
0.23 m
20.99s
1.05 S
4.
0.29 m
21.89 s
1.09s
5.
O.35 m
25.01 S
1.25 s
Related Questions:
1. Friction at the point of suspension and air resistance will tend to increase the period of
the pendulum over that of the theoretical value. Would this tend to make the
experimental value for g too high or too low?
2. Simulate a stronger gravitational force by placing a strong magnet a few centimeters
below the center of the steel ball so that as the ball swings, it is pulled both by the earth's
gravity and the magnet. How does this affect the period of the pendulum?
How would this affect the experimental value of g ?
Transcribed Image Text:5. Lengthen or shorten the pendulum string and repeat the above steps for as many trial. as time permits. Calculate the value of g for each set of values L. and T. In each case calculate your percentage error by finding the difference between your experimental value and the standard value, 9.8 meters / sec, dividing this difference by the standard value, and multiplying by 100% Data Table Pendulum length (L) (meters) Time for 20 swings t (sec) Period (T) (sec) E Percent error Trial 8-4 (m / see") T O.12 m 14.775 17.865 0.14$ 2. o16 m. O.89S 3. 0.23 m 20.99s 1.05 S 4. 0.29 m 21.89 s 1.09s 5. O.35 m 25.01 S 1.25 s Related Questions: 1. Friction at the point of suspension and air resistance will tend to increase the period of the pendulum over that of the theoretical value. Would this tend to make the experimental value for g too high or too low? 2. Simulate a stronger gravitational force by placing a strong magnet a few centimeters below the center of the steel ball so that as the ball swings, it is pulled both by the earth's gravity and the magnet. How does this affect the period of the pendulum? How would this affect the experimental value of g ?
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