4. Th n na an uza Ertre n the Ive po allo xe-p sion! aute Enfice mu 11 enter star Rous ( HOU 'S P Concer ressi Solul 24 sides method. 6. The question asks you to solve the equilibrium concentrations for a reaction using the squaring both A mixture of 0.250 M H₂ and 0.250 M 1₂ was placed on a stainless steel autoclave at 430 °C. The equilibrium constant for the reaction below is 54.3. Calculate the equilibrium concentrations of the reactants and products at equilibrium. H₂(g) + 12(g) 2HI(g) a) Write the equilibrium equations. b) Build an ICE table. I C E H₂ 12 c) Plug in the "E" values into the equilibrium equation. d) Solve for x by taking the square root of each side. HI e) Input the values of x into the "E" values and report the equilibrium concentrations. [H₂] = [1₂] = [HI]= =

4. Th n na an uza Ertre n the Ive po allo xe-p sion! aute Enfice mu 11 enter star Rous ( HOU 'S P Concer ressi Solul 24 sides method. 6. The question asks you to solve the equilibrium concentrations for a reaction using the squaring both A mixture of 0.250 M H₂ and 0.250 M 1₂ was placed on a stainless steel autoclave at 430 °C. The equilibrium constant for the reaction below is 54.3. Calculate the equilibrium concentrations of the reactants and products at equilibrium. H₂(g) + 12(g) 2HI(g) a) Write the equilibrium equations. b) Build an ICE table. I C E H₂ 12 c) Plug in the "E" values into the equilibrium equation. d) Solve for x by taking the square root of each side. HI e) Input the values of x into the "E" values and report the equilibrium concentrations. [H₂] = [1₂] = [HI]= =

Principles of Instrumental Analysis

7th Edition

ISBN:9781305577213

Author:Douglas A. Skoog, F. James Holler, Stanley R. Crouch

Publisher:Douglas A. Skoog, F. James Holler, Stanley R. Crouch

Chapter15: Molecular Luminescence Spectrometry

Section: Chapter Questions

Problem 15.8QAP

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H4)ConsiteR the following Beaction: Pa,t 8 H,0→ Hy POqt 3 HCl IP 12.49 of | 10.09 of Hy O, what is the limiting Ctrl PCI, is PeacteD witn T0.0g Peactant ? Molar nhass of Pelg: 137.329/mel. holarmass of HoO=18:0291 mel malar mass of Hy POz =¢2.00 glmol molar mass of HCl= 35.4A16 glmel. %3D
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(CH3CH2MgCl conc Ha, ZnC 2 CH3CH2CI 12, NaOH i) CHCO CH3CH3 CH3CH2COOH CH2=CH2 PC¢,CH2CI2 NH3, Heat CH3CH2OH KMo 4.H* Нeat |CH3CH,NH2 CH3CH2COCH,CH3 Pela Cu" complex, он CH3CN CH3C=0 CH3COOH CH3CO0 + Ag NạCN,H* H20 CH,C=N - N NO2 NaHSO 3 CH4 CH3Br NO2 C=O H,0* CH3MgBr K2Cr,07, H heat
exe/lo_u-lgNsikr7j8P3jH-IQs_dp5pR4ENzvdYC-70kXyMz36BqJhw3sVPj_jpaFLxvGArYxlbmcyqa71YYPJBG6RjdYAdGPjGhFLILID-HEX1YcqAB?1oBw7QYjlbavbSPXtx-YCjsh_7mMmrq#item Course Home Login | Student Veri... Bb Logout MyrogrammingLab Imported From IE ITEC2110:Summer2.. TunesToTube - Upl.. Web Development. Publix App O KINETICS AND EQUILIBRIUM Using the Arrhenius equation to caiculate k at one temperature fr.. Ci The rate constant of a certain reaction is known to obey the Arrhenius equation, and to have an activation energy E = 54.0 kJ/mol. If the rate constant of this 1 -1 at 11.0 °C, what will the rate constant be at -16.0 °C? reaction is 0.012 M Round your answer to 2 significant digits. -1 -1 x10
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6) What is the nucleophilic site in the following compounds? H3C-0-CH3 H2C=CH2 CH;NH2 II II A) | = Hydrogen; I| = TT electrons in bond; III = nitrogen. %3D B) | = Oxygen; II = carbon; III = nitrogen. C) Hydrogen; II = carbon; III = carbon. %3D D) | = Oxygen; II = TT electrons in bond; III = nitrogen.