has been cited by the following article(s):
[1]
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Pythagorean triangles analysis of the conical pendulum based on lengths, forces and times, to obtain equations for the principal physical parameters
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2019 |
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[2]
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A New Celestial Mechanics Dynamics of Accelerated Systems
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2019 |
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[3]
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Identification of the center of mass of a conical pendulum by the study and analysis of video images
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2019 |
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[4]
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Conical Pendulum Part 3 Further Analysis with Calculated Results of the Period, Forces, Apex Angle, Pendulum Speed and Rotational Angular Momentum
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2018 |
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[5]
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Conical Pendulum Part 3: Further Analysis with Calculated Results of the Period, Forces, Apex Angle, Pendulum Speed and Rotational Angular Momentum.
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2018 |
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[6]
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Conical Pendulum: Part 2. A Detailed Theoretical and Computational Analysis of the Period, Tension and Centripetal Forces.
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2017 |
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[7]
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Conical Pendulum–Linearization Analyses
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2017 |
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[8]
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Theory of Dynamic Interactions: Innovations
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2017 |
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[9]
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A Scientific Legacy: Theory of Dynamic Interactions
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2017 |
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[10]
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Theory of Dynamic Interactions: Synthesis
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2017 |
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[11]
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Conical Pendulum: Part 2 A Detailed Theoretical and Computational Analysis of the Period, Tension and Centripetal Forces
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2017 |
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[12]
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Conical Pendulum--Linearization Analyses.
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European Journal of Physics Education,
2016 |
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[1]
|
Pythagorean triangles analysis of the conical pendulum based on lengths, forces and times, to obtain equations for the principal physical parameters
Physics Education,
2019
DOI:10.1088/1361-6552/ab1eba
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|
|
[2]
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Identification of the center of mass of a conical pendulum by the study and analysis of video images
Physics Education,
2019
DOI:10.1088/1361-6552/ab390f
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