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Lectures on sterilization and disinfection

Lectures on sterilization and disinfection

Lectures on sterilization and disinfection. Principle of sterilization and disinfection Individual strerilization and disinfection processes Media-specific disinfection (water and wastewater) Media-specific disinfection (air and surfaces) Media-specific disinfection (infectious solids).

By Albert_Lan
(407 views)

Chemistry 122 Fall Quarter 2013 - Review

Chemistry 122 Fall Quarter 2013 - Review

Chemistry 122 Fall Quarter 2013 - Review. 1) Sapling HW 14 11:50 pm Wednesday, 12/4/2013 2) Final Exam : (~ 2/3 Quantitative & ~ 1/3 Qualitative ) Wednesday, 12/11/2013, 8:00-10:00 am SL 120 . Chapter 5- The Gaseous State. Pressure: Lb/in 2 , Atm, mm Hg, Torr, Pa

By issac
(153 views)

Chapter 14

Chapter 14

Chapter 14. Enzyme Kinetics to accompany Biochemistry, 2/e by Reginald Garrett and Charles Grisham.

By niveditha
(320 views)

Enzyme Kinetics and Catalysis

Enzyme Kinetics and Catalysis

Enzyme Kinetics and Catalysis. 3/19/2003. Serine proteases. Diverse and widespread proteolytic enzymes Involved in digestion, development, clotting, inflammation… Common catalytic mechanism. Use of an Artificial Substrate.

By oksana
(283 views)

Lecture 15

Lecture 15

Lecture 15. Enzymology Today, Howard Salis (148 Baker) 3PM. Extra credit seminar-assignments due Monday. Enzyme-catalyzed reactions must involve formation of an enzyme - substrate complex, followed by one or more chemical steps. V max and K m are two key measurable properties of enzymes.

By jayme
(423 views)

CHAPTER 19 Chemical Kinetics

CHAPTER 19 Chemical Kinetics

CHAPTER 19 Chemical Kinetics. Chemical Reactions There are two things that we are interested in concerning chemical reactions: 1) Where is the system going ( chemical equilibrium ). 2) How long will it take for the system to get to where it is going ( chemical kinetics ).

By finn
(165 views)

Chemistry 232

Chemistry 232

Chemistry 232. Complex Reaction Mechanisms. Lindemann-Hinshelwood Mechanism. An early attempt to explain the kinetics of complex reactions. Mechanism. Rate Laws. The ‘Activated’ Intermediate. Formation of the product depends directly on the [A*].

By lena
(246 views)

Enzymes

Enzymes

Enzymes. Have properties shared by all catalysts Enhance the rates of both forward and reverse reactions so equilibrium is achieved more rapidly Position of equilibrium is unchanged Reduce activation energy Not permanently altered during the reaction

By josh
(144 views)

Module 2 # 3

Module 2 # 3

Module 2 # 3. Pharmacokinetics. how to make sense of the previous lesson or why do I have to learn this stuff?. 15. 12. 9. Cp tox. plasma conc. (mg/L). 6. Cp eff. 3. 0. 0. 10. 20. 30. time (hr). d rug dosing calculations. Concepts: target plasma concentration

By jyotika
(84 views)

Pharmacokinetic Modeling (describing what happens)

Pharmacokinetic Modeling (describing what happens)

Pharmacokinetic Modeling (describing what happens). Volume of distribution. AKA “Apparent volume of distribution” The volume of fluid that appears to contain the amount of drug in the body May not be actual physiologic space(s) Relates amount to plasma concentration

By bree
(124 views)

Kinetics

Kinetics

Kinetics. Advanced Higher Chemistry Unit 2(f). The Rate Law. a A + b B → c C + d D. Rate  [A] m .[B] n. Rate = k [A] m .[B] n. Where… k = rate constant m and n = orders of reaction with respect to A and B. Orders of reaction.

By seven
(127 views)

CHEMICAL KINETICS

CHEMICAL KINETICS

CHEMICAL KINETICS. Reaction Mechanism Rate Law Order of Reactions. Chemical Kinetics  by Dr. Akinyugha  is licensed under a  Creative Commons Attribution- NonCommercial 4.0 International License. Reaction Mechanism Most reactions occur in a series of steps at a molecular level

By theta
(104 views)

Rates and Rate Laws

Rates and Rate Laws

Rates and Rate Laws. Reaction Rate. The change in concentration of a reactant or product per unit of time. Reaction Rates:. 2NO 2 (g)  2NO(g) + O 2 (g). 1. Can measure disappearance of reactants. 2. Can measure appearance of products. 3. Are proportional

By melodie
(85 views)

The Arrhenius Equation

The Arrhenius Equation

The Arrhenius Equation. AP Chemistry Unit 8 Kinetics. The Arrhenius Equation. Used to describe the temperature dependence of the rate constant. k = rate constant A = frequency factor for collisions Ea = activation Energy (J/mol) R = Gas constant (8.3145 J/Kmol) T = Temperature in Kelvin.

By ziva
(273 views)

The Collision Model

The Collision Model

Temperature and Rate. The Collision Model Most reactions speed up as temperature increases. (E.g. food spoils when not refrigerated.) When two light sticks are placed in water: one at room temperature and one in ice, the one at room temperature is brighter than the one in ice.

By india
(165 views)

Author* MARLENE LOPES Supervisors: Isabel Belo, Co-Supervisor: Manuel Mota

Author* MARLENE LOPES Supervisors: Isabel Belo, Co-Supervisor: Manuel Mota

FED-BATCH CULTURES OF PICHIA PASTORIS UNDER INCREASED AIR PRESSURE. Author* MARLENE LOPES Supervisors: Isabel Belo, Co-Supervisor: Manuel Mota * marlenelopes@deb.uminho.pt. P. pastoris CBS 2612. CONSTANT DILUTION RATE. CONSTANT FLOW RATE. INTRODUCTION

By nadda
(165 views)

ChE 452 Lecture 26

ChE 452 Lecture 26

ChE 452 Lecture 26 . Transition State Theory Revisited. Last Time We Discussed Advanced Collision Theory:. Method Use molecular dynamics to simulate the collisions Integrate using statistical mechanics. (8.20). Summary:.

By emiko
(190 views)

Atkins & de Paula: Elements of Physical Chemistry: 5e

Atkins & de Paula: Elements of Physical Chemistry: 5e

Atkins & de Paula: Elements of Physical Chemistry: 5e. Chapter 10: Chemical Kinetics: The Rates of Reactions. End of chapter 10 assignments. Discussion questions: 2, 3, 4, 5, 7 Exercises: 1, 2, 4, 5, 7, 9, 12, 13, 19, 20 Use Excel if data needs to be graphed. Homework assignments.

By caden
(521 views)

Chemical Kinetics

Chemical Kinetics

Chemical Kinetics. Chung (Peter) Chieh Professor of chemistry University of Waterloo Waterloo, Ontario, Canada. A B. rate =. D [A]. D [B]. rate = -. D t. D t. Chemical Kinetics. Thermodynamics – does a reaction take place? Kinetics – how fast does a reaction proceed?.

By holleb
(79 views)

Steady-State Enzyme Kinetics Scott Morrical smorrica@uvm B407 Given Bldg. General References:

Steady-State Enzyme Kinetics Scott Morrical smorrica@uvm B407 Given Bldg. General References:

Steady-State Enzyme Kinetics Scott Morrical smorrica@uvm.edu B407 Given Bldg. General References: Textbook: Frey & Hegeman, Chapter 2, pp. 69-128 Reserve: Cornish-Bowden (1979) Enzyme Kinetics , Butterworth & Co., London Websites: Dr. Peter Birch, University of Paisley

By earl
(212 views)

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