STUDY OF COUPLE OSCILLATORY MOTION BETWEEN SPRING AND PENDULUM
Oscillatory motion is one of the study of physics is important to understand. In understanding the physics studies are needed understanding of the theory and evidence through experimentation. This study discusses the oscillatory motion system couples between spring and pendulum theoretically and exp...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/24706 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Oscillatory motion is one of the study of physics is important to understand. In understanding the physics studies are needed understanding of the theory and evidence through experimentation. This study discusses the oscillatory motion system couples between spring and pendulum theoretically and experimentally. The value and frequency of the oscillation period binary systems obtained from theoretical calculations compared with the period and frequency values obtained from the experiments. Experiments carried out using a pair of oscillation of the pendulum spring, with the position of the center of mass spring system. Through previous studies with a spring system and a separate pendulum, the value of a spring constant of 9.71 N / m, and the value of the gravitational acceleration in place of experiments is 9.6 m / s2. And the value of the gravitational acceleration from oscillatory couples experiments is 9.8 m / s2 .The smallest and the largest deviation from tool oscillation couples who are still experiencing harmonic motion is 2.7 cm and 6.7 cm. The value of the oscillation period of a couple of experimental results for 30 times the oscillation with a deviation of 2.7 cm, 3.7 cm, 4.7 cm, 5.7 cm, and 6.7 cm respectively are 1276 s, 1275 s, 1,269, 1,275, 1,280. While the value of the oscillation period of the pair by theoretical calculations by neglecting air friction, friction on the shaft system, and the mass of the spring is 1,31 s. Error value between teory and eksperiment is 3%. |
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