RSS Feed for Michaelis-Menten https://solvonauts.org/%3Faction%3Drss_search%26term%3DMichaelis-Menten RSS Feed for Michaelis-Menten Deriving the Michaelis-Menten Equation An audiovisual presentation on deriving the Michaelis Menten equation http://dspace.jorum.ac.uk/xmlui/handle/10949/378 http://dspace.jorum.ac.uk/xmlui/handle/10949/378 Using the Michaelis-Menten equation An interactive lesson on using the Michaelis Menten equation http://dspace.jorum.ac.uk/xmlui/handle/10949/379 http://dspace.jorum.ac.uk/xmlui/handle/10949/379 Thermodynamics and Chemical Dynamics 131C. Lecture 25. Enzymes Pt. II UCI Chem 131C Thermodynamics and Chemical Dynamics Spring 2012 Lec 25 Thermodynamics and Chemical Dynamics Enzymes Pt II View the complete course http ocw uci edu courses chem 131c thermodynamics and chemical dynamics html Instructor Reginald Penner Ph D License Creative Commons BY NC SA Terms of Use http ocw uci edu info More courses at http ocw uci edu Description In Chemistry 131C students will study how to calculate macroscopic chemical properties of systems This course will build on the microscopic understanding Chemical Physics to reinforce and expand your understanding of the basic thermo chemistry concepts from General Chemistry Physical Chemistry We then go on to study how chemical reaction rates are measured and calculated from molecular properties Topics covered include Energy entropy and the thermodynamic potentials Chemical equilibrium and Chemical kinetics Thermodynamics and Chemical Dynamics Chem 131C is part of OpenChem http ocw uci edu openchem This video is part of a 27 lecture undergraduate level course titled Thermodynamics and Chemical Dynamics taught at UC Irvine by Professor Reginald M Penner Recorded on June 4 2012 Index of Topics 0 00 06 Enzymes 0 12 36 The Michaelis Menten Equation 0 20 27 Michaelis Menten Kinetics 0 24 30 Ratio Between V and Vmax 0 25 34 Lineweaver Burk Plot 0 32 56 Classifying Inhibitors Required attribution Penner Reginald Thermodynamics and Chemical Dynamics 131C UCI OpenCourseWare University of California Irvine http ocw uci edu courses chem 131c thermodynamics and chemical dynamics html Access date License Creative Commons Attribution ShareAlike 3 0 United States License http creativecommons org licenses by sa 3 0 us deed en US http://www.youtube.com/watch?v=K7j-MMSzuSA http://www.youtube.com/watch?v=K7j-MMSzuSA 20.320 Analysis of Biomolecular and Cellular Systems (MIT) 20.320 Analysis of Biomolecular and Cellular Systems (MIT) This course focuses on computational and experimental analysis of biological systems across a hierarchy of scales including genetic molecular cellular and cell population levels The two central themes of the course are modeling of complex dynamic systems and protein design and engineering Topics include gene sequence analysis molecular modeling metabolic and gene regulation networks signal transduction pathways and cell populations in tissues Emphasis is placed on experimental methods quantitative analysis and computational modeling This course focuses on computational and experimental analysis of biological systems across a hierarchy of scales including genetic molecular cellular and cell population levels The two central themes of the course are modeling of complex dynamic systems and protein design and engineering Topics include gene sequence analysis molecular modeling metabolic and gene regulation networks signal transduction pathways and cell populations in tissues Emphasis is placed on experimental methods quantitative analysis and computational modeling http://ocw.mit.edu/courses/biological-engineering/20-320-analysis-of-biomolecular-and-cellular-systems-fall-2012 http://ocw.mit.edu/courses/biological-engineering/20-320-analysis-of-biomolecular-and-cellular-systems-fall-2012 Michaelis-Menten Equation - Practice Test A ten question test on transforming a curve to a straight line http://dspace.jorum.ac.uk/xmlui/handle/10949/383 http://dspace.jorum.ac.uk/xmlui/handle/10949/383 Thermodynamics and Chemical Dynamics 131C. Lecture 24. Lindemann-Hinshelwood Part II UCI Chem 131C Thermodynamics and Chemical Dynamics Spring 2012 Lec 24 Thermodynamics and Chemical Dynamics Lindemann Hinshelwood Part II View the complete course http ocw uci edu courses chem 131c thermodynamics and chemical dynamics html Instructor Reginald Penner Ph D License Creative Commons BY NC SA Terms of Use http ocw uci edu info More courses at http ocw uci edu Description In Chemistry 131C students will study how to calculate macroscopic chemical properties of systems This course will build on the microscopic understanding Chemical Physics to reinforce and expand your understanding of the basic thermo chemistry concepts from General Chemistry Physical Chemistry We then go on to study how chemical reaction rates are measured and calculated from molecular properties Topics covered include Energy entropy and the thermodynamic potentials Chemical equilibrium and Chemical kinetics Thermodynamics and Chemical Dynamics Chem 131C is part of OpenChem http ocw uci edu openchem This video is part of a 27 lecture undergraduate level course titled Thermodynamics and Chemical Dynamics taught at UC Irvine by Professor Reginald M Penner Recorded on June 1 2012 Index of Topics 0 00 06 Enzymes 0 07 58 Most Elementary Reactions are Unimolecular or Bimolecular 0 09 45 The Lindmann Hinshelwood Mechanism 0 16 53 The Kinetics of Pressure Dependent Reactions 0 22 34 The Michaelis Menten Equation Required attribution Penner Reginald Thermodynamics and Chemical Dynamics 131C UCI OpenCourseWare University of California Irvine http ocw uci edu courses chem 131c thermodynamics and chemical dynamics html Access date License Creative Commons Attribution ShareAlike 3 0 United States License http creativecommons org licenses by sa 3 0 us deed en US http://www.youtube.com/watch?v=D6khfM6nXZM http://www.youtube.com/watch?v=D6khfM6nXZM Enzyme Assays This articulate presentation illustrates the basic principles of enzyme assays The resource describes how to use spectrophotometry to measure reaction rates the effect on substrate concentration on reaction rates and explains the principles behind the Michaelis Menten equation http://dspace.jorum.ac.uk/xmlui/handle/10949/11894 http://dspace.jorum.ac.uk/xmlui/handle/10949/11894 20.320 Analysis of Biomolecular and Cellular Systems (MIT) This course focuses on computational and experimental analysis of biological systems across a hierarchy of scales including genetic molecular cellular and cell population levels The two central themes of the course are modeling of complex dynamic systems and protein design and engineering Topics include gene sequence analysis molecular modeling metabolic and gene regulation networks signal transduction pathways and cell populations in tissues Emphasis is placed on experimental methods quantitative analysis and computational modeling https://ocw.mit.edu/courses/biological-engineering/20-320-analysis-of-biomolecular-and-cellular-systems-fall-2012 https://ocw.mit.edu/courses/biological-engineering/20-320-analysis-of-biomolecular-and-cellular-systems-fall-2012