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Artit Hutem

Authors

Artit Hutem Division of Science Education, Faculty of Science and Technology, Phetchabun Rajabhat University, Phetchabun Province, 67000

Keywords:

pull force, tension force, the distance between pendulum and the vertical

Abstract

This study is to calculate the distance of pendulum and the vertical distance. Using Newton's laws of motion in a system of equilibrium. We can be used mathematical techniques on derivative functions. When the mass of the clock pendulum has dimensions of 0.10, 0.15, 0.20, and 0.25 kg and the size of rope length is 1 m. The distance of pendulum and the vertical in the case of tensile force was compared and tensile force . The results of the calculation can be seen that the distance of pendulum with the vertical line is directly proportional to the length of the rope. The distance of pendulum but inversely proportional to the size of the mass of the clock pendulum.

References

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K. Narissarawut, K. Suwannapoch, S. Naknayom, T. Seehatrai, and A. Hutem, (2024), Creation of experimental equipment finding the coefficient of friction in sand floor and flake stone floor from the solid sphere and hollow sphere, Journal of Earth Science, Astronomy and Space, Vol. 7 No. 1, pp. 1-12.

A. Wanaek and A. Hutem, (2023), Calculation of Time-dependent Angular Displacement Angular Velocity and Tension Force of Particle in the Pendulum Motion under Air Resistance Force and Cosine External Force, Journal of Earth Science, Astronomy and Space, Vol. 6 No. 1, pp 14-28.

A. Hutem,(2023) , Calculation of the time-dependent velocity and displacement of particle move under time-dependent external force of damping oscillation, Journal of Science and Technology CRRU, vol. 2, no. 1, pp. 1-7.

Hutem A., (2024), Angular Displacement Angular Velocity and Tension Force of Particle in the Pendulum Motion under drag Force and Time-Dependent External Force, Journal of Science and Technology CRRU, Vol. 3 No. 1., pp. 48-65

Kuaykaew S., Kerdmee S., Banyenugam P., Moonsri P. and Hutem A.,(2016), The Analytical Description of Projectile Motion of Cricket Ball in a Linear Resisting Medium the Storm Force, Applied Mechanics and Materials, vol. 855, pp. 188-191.