![Applied Sciences | Free Full-Text | Dimensional Synthesis of Watt II and Stephenson III Six-Bar Slider-Crank Function Generators for Nine Prescribed Positions Applied Sciences | Free Full-Text | Dimensional Synthesis of Watt II and Stephenson III Six-Bar Slider-Crank Function Generators for Nine Prescribed Positions](https://www.mdpi.com/applsci/applsci-12-10503/article_deploy/html/images/applsci-12-10503-g001-550.jpg)
Applied Sciences | Free Full-Text | Dimensional Synthesis of Watt II and Stephenson III Six-Bar Slider-Crank Function Generators for Nine Prescribed Positions
![SolidMechs Blog: Slider-Crank Mechanism - Case 1: Constant torque applied to the crank starting from rest SolidMechs Blog: Slider-Crank Mechanism - Case 1: Constant torque applied to the crank starting from rest](https://2.bp.blogspot.com/-E7TZA6j4x64/WftPwvEvvaI/AAAAAAAARys/G5XkHmkmTVY7-ncHC6h1EHoLEHUOWnOdwCLcBGAs/s1600/Screenshot%2B2017-11-02%2Bat%2B12.02.09%2BPM.png)
SolidMechs Blog: Slider-Crank Mechanism - Case 1: Constant torque applied to the crank starting from rest
![A genetic algorithm-based computed torque control for slider–crank mechanism in the ship's propeller - Farsam Farzadpour, Hossein Faraji, 2014 A genetic algorithm-based computed torque control for slider–crank mechanism in the ship's propeller - Farsam Farzadpour, Hossein Faraji, 2014](https://journals.sagepub.com/cms/10.1177/0954406213516437/asset/images/large/10.1177_0954406213516437-fig2.jpeg)
A genetic algorithm-based computed torque control for slider–crank mechanism in the ship's propeller - Farsam Farzadpour, Hossein Faraji, 2014
![L2.11 Forces in Slider crank mechanism || static analysis || Rigid body ||Advance Problem||Mechanics - YouTube L2.11 Forces in Slider crank mechanism || static analysis || Rigid body ||Advance Problem||Mechanics - YouTube](https://i.ytimg.com/vi/gW90fpME3kQ/hqdefault.jpg)
L2.11 Forces in Slider crank mechanism || static analysis || Rigid body ||Advance Problem||Mechanics - YouTube
![Dynamic analysis and controller design for a slider–crank mechanism with piezoelectric actuators - ScienceDirect Dynamic analysis and controller design for a slider–crank mechanism with piezoelectric actuators - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S228843001630032X-gr1.jpg)
Dynamic analysis and controller design for a slider–crank mechanism with piezoelectric actuators - ScienceDirect
![For the slider-crank mechanism shown in the figure below, a pressure p = 100 N/c m^2 and the area of the piston crown A = 100 cm^2 is applied on the piston For the slider-crank mechanism shown in the figure below, a pressure p = 100 N/c m^2 and the area of the piston crown A = 100 cm^2 is applied on the piston](https://homework.study.com/cimages/multimages/16/160519-97600661207199809360.jpg)