SolveStudyTextbooksGuidesUse appLogin>>Class 12>>Chemistry>>Chemical Kinetics>>Factors Influencing Rate of a Reaction>>For the reaction 2NH3 g → N2g + 3Question EasyOpen in AppUpdated on 2022-09-05SolutionVerified by TopprSince Rate is independent of Concentration Of Reactant. Order of this Reaction is as Two molecules of react to form Products, Molecularity of this reaction is Solve any question of Chemical Kinetics with-Patterns of problems > Was this answer helpful? 00Similar questionsFor a reaction Rate = k I Write the order and molecularity of this reaction. II Write the unit of .Delhi 2016EasyView solution > For a reaction i Write the order and molecularity of this reaction. ii Write the unit of .MediumView solution > What is the difference between the order and molecularity of a reaction? solution > Write the difference between order and molecularity of a solution > Distinguish between order and molecularity of a reaction. MediumView solution > More From ChapterChemical KineticsView chapter > Revise with ConceptsRate Law, Rate Expression and Rate ConstantExampleDefinitionsFormulaes >Order and Molecularity of a >Learn with VideosUnderstand Rate Law with example12 minsIntroduction, Characteristics and Applications of Rate Constant5 minsUnderstand Order of Reactions5 minsSolve questions on the Order of Reaction13 minsUnderstand Elementary and Complex Reactions6 minsUnits of Rate Constant for Reactions of different orders4 minsMolecularity and compare it with order of reaction18 minsExamples of finding molecularity of reactions3 minsUnderstand slowest step as rate determining step9 mins Practice more questions Easy Questions 32 Qs >Medium Questions 510 Qs >Hard Questions 453 Qs > Shortcuts & Tips Common Misconceptions > Mindmap > Important Diagrams > Cheatsheets >
Transcribed image text N2 g+3H2 g→2NH3 g Consider a reaction between a L flask containing nitrogen gas and a L flask of hydrogen gas. Both gases have a temperature of 305 K and the pressures inside both flasks is bar. What mass of ammonia in g would you expect to be produced at temperature 305 K and a pressure of bar?Previous question Next questionThis problem has been solved!You'll get a detailed solution from a subject matter expert that helps you learn core Answer
合成氨工业对国民经济和社会发展具有重要的意义其原理为:N2(g)+3H2(g)、2NH3(g) ∆H=-92.2 kJ·mol-1 ,据此回答以下问题:(1)①某温度下,若把 10 mol N2 与 30 mol H2置于体积为 10 L 的密闭容器内,反应达到平衡状态时,测得混合气体中氨的体积分数为 20%,则该温度下反应的K=_____ (可用You first need to solve for the moles of N2. This is done by dividing the mass given by the molar mass of N2. The molar mass is calculated by adding the molar mass of all the atoms N * 2 = N2Using as the molar mass of N2 perform the following / = N2Because the equation in balanced we already know that there are two moles of ammonia produced for every one mole of N2. This means we just need to multiply the number of moles of N2 by 2 in order to get the number of moles of ammonia N2 * 2mol NH3/1mol N2 = NH3After solving for the moles of ammonia, we need to convert the moles to grams. This is done using the molar mass of ammonia which is solved as N2 + 3 H = NH3The moles of ammonia we found earlier is then multiplied by the molar mass of ammonia to convert it to NH3 * NH3 = NH3Therefore, your answer should be of ammonia are produced. Considerthe reaction 2NH3(g) → N2(g) + 3H2(g)If the rate Δ[H2]/Δt is 0.030 mol L-1 s-1, then Δ[NH3]/Δt is 403 ERROR The Amazon CloudFront distribution is configured to block access from your country. We can't connect to the server for this app or website at this time. There might be too much traffic or a configuration error. Try again later, or contact the app or website owner. If you provide content to customers through CloudFront, you can find steps to troubleshoot and help prevent this error by reviewing the CloudFront documentation. Generated by cloudfront CloudFront Request ID B2NgdjPlc7GqpfwFvObT9ywQaUmokz5nVM2V9QQIGwtCQdkKuKdqYQ==
TheQuestions and Answers of How to calculate the value of internal energy change when enthalpy change for the reaction N2(g) 3h2(g) -- 2NH3(g) is 91.8 KJ at 298 k? (R= 8.314 J /k mol)? are solved by group of students and teacher of Class 11, which is also the largest student community of Class 11.
n2 g 3h2 g 2nh3 g
