1. Develop force analysis equations 2. Develop motion geometry analysis equations. The dimensions and type of the Geneva mechanism can be selected by the student. 3. Communicate a design through sketching with Solidworks/ ANSYS/ COMSOL softwares 4. Perform the numerical simulation for more than one input using the suitable software such as or Solidworks/ ANSYS/ COMSOL 5. The numerical simulation should provide the behavior based on different inputs to get wide spectrum of responses. This step allows you to select the operation window of the generated design. 6. Communicate project outcomes in writing 7. Communicate project outcomes orally All the best/n Project Quality requirements for guidance and evaluation The evaluation of the quality of the engineering projects goes through the following bases. Project description: The project should design and analysis the Geneva mechanism. It should include the full system design and analysis. 1. Form a problem statement 2. Conduct engineering design based on the course's nature. For mechanical vibrations: it is dynamic multi-body design 3. Formulate product design specifications 4. Develop and select design solutions 5. Communicate a design through sketching with ANSYS/Solidworks/ COMSOL software 6. Evaluate and test a design using suitable software that allows the simulation in the form of input to output signals relations 7. Construct design as specified (virtual prototype) 8. Perform the numerical simulation for more than one input using the suitable software such as ANSYS 9. The numerical simulation should provide the behavior based on different inputs to get wide spectrum of responses. This step allows you to select the operation window of the generated design. 10. The simulation responses should be taken to select the best operating and environmental conditions 11. Communicate project outcomes in writing 12. Communicate project outcomes orally All the best