RSS Feed for dynamic behavior https://solvonauts.org/%3Faction%3Drss_search%26term%3Ddynamic+behavior RSS Feed for dynamic behavior 10.450 Process Dynamics, Operations, and Control (MIT) 10.450 Process Dynamics, Operations, and Control (MIT) Introduction to dynamic processes and the engineering tasks of process operations and control Subject covers modeling the static and dynamic behavior of processes control strategies design of feedback feedforward and other control structures model based control applications to process equipment Technical RequirementsAny number of software tools can be used to import the csv files found on this course site Please refer to the course materials for any specific instructions or recommendations MATLAB 174 software 160 is required to run the m files found on this course site MATLAB 174 is a trademark of The MathWorks Inc Introduction to dynamic processes and the engineering tasks of process operations and control Subject covers modeling the static and dynamic behavior of processes control strategies design of feedback feedforward and other control structures model based control applications to process equipment Technical RequirementsAny number of software tools can be used to import the csv files found on this course site Please refer to the course materials for any specific instructions or recommendations MATLAB 174 software 160 is required to run the m files found on this course site MATLAB 174 is a trademark of The MathWorks Inc http://dspace.mit.edu/handle/1721.1/34905 http://dspace.mit.edu/handle/1721.1/34905 2.854 Introduction to Manufacturing Systems (MIT) 2.854 Introduction to Manufacturing Systems (MIT) This course provides students with ways of analyzing manufacturing systems in terms of material flow and storage information flow capacities and times and durations of events Fundamental topics covered include probability inventory and queuing models forecasting optimization process analysis and linear and dynamic systems This course also covers factory planning and scheduling topics including flow planning bottleneck characterization buffer and batch size tactics seasonal planning and dynamic behavior of production systems This course provides students with ways of analyzing manufacturing systems in terms of material flow and storage information flow capacities and times and durations of events Fundamental topics covered include probability inventory and queuing models forecasting optimization process analysis and linear and dynamic systems This course also covers factory planning and scheduling topics including flow planning bottleneck characterization buffer and batch size tactics seasonal planning and dynamic behavior of production systems http://ocw.mit.edu/courses/mechanical-engineering/2-854-introduction-to-manufacturing-systems-fall-2010 http://ocw.mit.edu/courses/mechanical-engineering/2-854-introduction-to-manufacturing-systems-fall-2010 10.450 Process Dynamics, Operations, and Control (MIT) 10.450 Process Dynamics, Operations, and Control (MIT) This course introduces dynamic processes and the engineering tasks of process operations and control Subject covers modeling the static and dynamic behavior of processes control strategies design of feedback feedforward and other control structures and applications to process equipment Dedication In preparing this material the author has recalled with pleasure his own introduction many years ago to Process Control This OCW course is dedicated with gratitude to Prof W C Clements of the University of Alabama This course introduces dynamic processes and the engineering tasks of process operations and control Subject covers modeling the static and dynamic behavior of processes control strategies design of feedback feedforward and other control structures and applications to process equipment Dedication In preparing this material the author has recalled with pleasure his own introduction many years ago to Process Control This OCW course is dedicated with gratitude to Prof W C Clements of the University of Alabama http://ocw.mit.edu/courses/chemical-engineering/10-450-process-dynamics-operations-and-control-spring-2006 http://ocw.mit.edu/courses/chemical-engineering/10-450-process-dynamics-operations-and-control-spring-2006 22.06 Engineering of Nuclear Systems (MIT) 22.06 Engineering of Nuclear Systems (MIT) In this course students explore the engineering design of nuclear power plants using the basic principles of reactor physics thermodynamics fluid flow and heat transfer Topics include reactor designs thermal analysis of nuclear fuel reactor coolant flow and heat transfer power conversion cycles nuclear safety and reactor dynamic behavior In this course students explore the engineering design of nuclear power plants using the basic principles of reactor physics thermodynamics fluid flow and heat transfer Topics include reactor designs thermal analysis of nuclear fuel reactor coolant flow and heat transfer power conversion cycles nuclear safety and reactor dynamic behavior http://ocw.mit.edu/courses/nuclear-engineering/22-06-engineering-of-nuclear-systems-fall-2010 http://ocw.mit.edu/courses/nuclear-engineering/22-06-engineering-of-nuclear-systems-fall-2010 2.18 Biomolecular Feedback Systems (MIT) 2.18 Biomolecular Feedback Systems (MIT) This course focuses on feedback control mechanisms that living organisms implement at the molecular level to execute their functions with emphasis on techniques to design novel systems with prescribed behaviors Students will learn how biological functions can be understood and designed using notions from feedback control This course focuses on feedback control mechanisms that living organisms implement at the molecular level to execute their functions with emphasis on techniques to design novel systems with prescribed behaviors Students will learn how biological functions can be understood and designed using notions from feedback control http://ocw.mit.edu/courses/mechanical-engineering/2-18-biomolecular-feedback-systems-spring-2015 http://ocw.mit.edu/courses/mechanical-engineering/2-18-biomolecular-feedback-systems-spring-2015 Physical Chemistry I In this course the student will learn about the three laws of thermodynamics thermodynamic principles ideal and real gases phases of matter equations of state and state changes The student will also take a look at chemical kinetics a branch of study concerned with the rates of reactions and other processes as well as kinetic molecular theory and statistical mechanics which relate the atomic level motion of a large number of particles to the average thermodynamic behavior of the system as a whole This free course may be completed online at any time See course site for detailed overview and learning outcomes Chemistry 105 http://dspace.jorum.ac.uk/xmlui/handle/10949/16445 http://dspace.jorum.ac.uk/xmlui/handle/10949/16445 10.450 Process Dynamics, Operations, and Control (MIT) Introduction to dynamic processes and the engineering tasks of process operations and control Subject covers modeling the static and dynamic behavior of processes control strategies design of feedback feedforward and other control structures model based control applications to process equipment Technical RequirementsAny number of software tools can be used to import the csv files found on this course site Please refer to the course materials for any specific instructions or recommendations MATLAB 174 software 160 is required to run the m files found on this course site MATLAB 174 is a trademark of The MathWorks Inc https://dspace.mit.edu/handle/1721.1/34905 https://dspace.mit.edu/handle/1721.1/34905 2.18 Biomolecular Feedback Systems (MIT) This course focuses on feedback control mechanisms that living organisms implement at the molecular level to execute their functions with emphasis on techniques to design novel systems with prescribed behaviors Students will learn how biological functions can be understood and designed using notions from feedback control https://ocw.mit.edu/courses/mechanical-engineering/2-18-biomolecular-feedback-systems-spring-2015 https://ocw.mit.edu/courses/mechanical-engineering/2-18-biomolecular-feedback-systems-spring-2015 22.06 Engineering of Nuclear Systems (MIT) In this course students explore the engineering design of nuclear power plants using the basic principles of reactor physics thermodynamics fluid flow and heat transfer Topics include reactor designs thermal analysis of nuclear fuel reactor coolant flow and heat transfer power conversion cycles nuclear safety and reactor dynamic behavior https://ocw.mit.edu/courses/nuclear-engineering/22-06-engineering-of-nuclear-systems-fall-2010 https://ocw.mit.edu/courses/nuclear-engineering/22-06-engineering-of-nuclear-systems-fall-2010 10.450 Process Dynamics, Operations, and Control (MIT) This course introduces dynamic processes and the engineering tasks of process operations and control Subject covers modeling the static and dynamic behavior of processes control strategies design of feedback feedforward and other control structures and applications to process equipment Dedication In preparing this material the author has recalled with pleasure his own introduction many years ago to Process Control This OCW course is dedicated with gratitude to Prof W C Clements of the University of Alabama https://ocw.mit.edu/courses/chemical-engineering/10-450-process-dynamics-operations-and-control-spring-2006 https://ocw.mit.edu/courses/chemical-engineering/10-450-process-dynamics-operations-and-control-spring-2006 2.854 Introduction to Manufacturing Systems (MIT) This course provides ways to analyze manufacturing systems in terms of material flow and storage information flow capacities and times and durations of events Fundamental topics include probability inventory and queuing models optimization and linear and dynamic systems Factory planning and scheduling topics include flow planning bottleneck characterization buffer and batch size analysis and dynamic behavior of production systems https://ocw.mit.edu/courses/mechanical-engineering/2-854-introduction-to-manufacturing-systems-fall-2016 https://ocw.mit.edu/courses/mechanical-engineering/2-854-introduction-to-manufacturing-systems-fall-2016