The Implementation of Biomechanics in Push-up Simulation Tool
Biomechanics is part of a scientific discipline that applies basic mechanical principles to explain the performance system in the human body (living things). One of the applications in the human body is when doing push-ups. Push-up tools are made to determine the relationship between arm length, mas...
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| Format: | Article |
| Language: | English |
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UIKTEN
2019-06-01
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| Series: | SAR Journal |
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| Online Access: | http://www.sarjournal.com/content/22/SARJournalJune2019_51_54.pdf |
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doaj-3954a76b77a74f86a39d14871b60135d |
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Article |
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doaj-3954a76b77a74f86a39d14871b60135d2020-11-24T21:05:17ZengUIKTENSAR Journal2619-99632619-99632019-06-0122515410.18421/SAR22-01The Implementation of Biomechanics in Push-up Simulation ToolKasyfi Rifqi MouromadhoniHeru KuswantoAndi AsmarBiomechanics is part of a scientific discipline that applies basic mechanical principles to explain the performance system in the human body (living things). One of the applications in the human body is when doing push-ups. Push-up tools are made to determine the relationship between arm length, mass, and angle to the force and torque. After the tool is assembled, the tool has experimented with mass manipulation variables of 125 g; 290 g; 515 g and body length of 20; 40; 60 cm. Based on the experimental result, it is shown that the greater the arm’s length, the greater the force and torque. The greater the mass of the object, the greater the force.http://www.sarjournal.com/content/22/SARJournalJune2019_51_54.pdfbiomechanicspush-upstorquenewton |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Kasyfi Rifqi Mouromadhoni Heru Kuswanto Andi Asmar |
| spellingShingle |
Kasyfi Rifqi Mouromadhoni Heru Kuswanto Andi Asmar The Implementation of Biomechanics in Push-up Simulation Tool SAR Journal biomechanics push-ups torque newton |
| author_facet |
Kasyfi Rifqi Mouromadhoni Heru Kuswanto Andi Asmar |
| author_sort |
Kasyfi Rifqi Mouromadhoni |
| title |
The Implementation of Biomechanics in Push-up Simulation Tool |
| title_short |
The Implementation of Biomechanics in Push-up Simulation Tool |
| title_full |
The Implementation of Biomechanics in Push-up Simulation Tool |
| title_fullStr |
The Implementation of Biomechanics in Push-up Simulation Tool |
| title_full_unstemmed |
The Implementation of Biomechanics in Push-up Simulation Tool |
| title_sort |
implementation of biomechanics in push-up simulation tool |
| publisher |
UIKTEN |
| series |
SAR Journal |
| issn |
2619-9963 2619-9963 |
| publishDate |
2019-06-01 |
| description |
Biomechanics is part of a scientific discipline that applies basic mechanical principles to explain the performance system in the human body (living things). One of the applications in the human body is when doing push-ups. Push-up tools are made to determine the relationship between arm length, mass, and angle to the force and torque. After the tool is assembled, the tool has experimented with mass manipulation variables of 125 g; 290 g; 515 g and body length of 20; 40; 60 cm. Based on the experimental result, it is shown that the greater the arm’s length, the greater the force and torque. The greater the mass of the object, the greater the force. |
| topic |
biomechanics push-ups torque newton |
| url |
http://www.sarjournal.com/content/22/SARJournalJune2019_51_54.pdf |
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AT kasyfirifqimouromadhoni theimplementationofbiomechanicsinpushupsimulationtool AT herukuswanto theimplementationofbiomechanicsinpushupsimulationtool AT andiasmar theimplementationofbiomechanicsinpushupsimulationtool AT kasyfirifqimouromadhoni implementationofbiomechanicsinpushupsimulationtool AT herukuswanto implementationofbiomechanicsinpushupsimulationtool AT andiasmar implementationofbiomechanicsinpushupsimulationtool |
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