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Helpful Stuff Gas Arrhenius Equation: k = Ae-Ea/RT Constant: R= 8.314 J/mol K Integrated...
the extra credit problem Helpful Stuff Gas Arrhenius Equation: k = Ae-Ea/RT Constant: R= 8.314 J/mol...
the extra credit problem
Helpful Stuff Gas Arrhenius Equation: k = Ae-Ea/RT Constant: R= 8.314 J/mol K Integrated Rate Laws and Half-Lives: Zero order: [A] = -kt + [A]. t1/2 =[A]/2k • First order: In[A] = -kt + In[A]. t1/2 = 0.693/k • Second order: 1/[A] = kt + 1/[A] t1/2 = 1/k[A] • Pseudo first order: Use first order integrated rate law for the pseudo-first order reactant; other reactant concentrations remain constant, but are still present in overall rate...
Helpful Stuff Gas Arrhenius Equation: k = Ae-Ea/RT Constant: R= 8.314 J/mol K Integrated Rate Laws...
Helpful Stuff Gas Arrhenius Equation: k = Ae-Ea/RT Constant: R= 8.314 J/mol K Integrated Rate Laws and Half-Lives: Zero order: [A] = -kt + [A]. t1/2 =[A]/2k • First order: In[A] = -kt + In[A]. t1/2 = 0.693/k • Second order: 1/[A] = kt + 1/[A] t1/2 = 1/k[A] • Pseudo first order: Use first order integrated rate law for the pseudo-first order reactant; other reactant concentrations remain constant, but are still present in overall rate law 1. You study...
help! 1 , 2 and extra credit! please answer all. 1. You study the following reaction...
help! 1 , 2 and extra credit! please answer all.
1. You study the following reaction in a series of experiments: (CH),COH(aq) + HCl(aq) à (CH),CCl(aq) +H,0(1) At 100.C you obtained the following data: Experiment (CH.COH., MHCIL. M Initial Rate, M's 100 0.100 5.0 x 10 0.100 10 x 10 300 6.200 10x10 0.300 0.100 1.5 x 10 0.00 Please do the following: a. Write the rate law for the reaction. b. Indicate the order of the reaction with respect...
Thanks in advance please just Question A , b and c please this is chemistry based...
Thanks in advance
please just Question A , b and c
please this is chemistry based on kinetics
there's no other subject
please if you don't know the calculation based on that
question, allow other experts to help out for the solutions
Thanks in advance
Helpful Hints: Arrhenius Equation: k =
Ae–Ea/RT Gas Constant: R = 8.314 J/mol·K
Integrated Rate Laws and Half-Lives:
• Zero order: [A] = –kt + [A]0 t1/2 = [A]0/2k
• First order: ln[A] = –kt...
Useful Information: Please show your work and write in complete sentences. R= 8.314 J/mol K 1/[A].=...
Useful Information: Please show your work and write in complete sentences. R= 8.314 J/mol K 1/[A].= kt +1/[A]. In k=-E/RT+ In A In [A] =-kt + In[A]. In kı/k2 = E/R (1/T2 - 1/11) 1. The following data were collected for the reaction: 2 C102(aq) + 2 OH (g) → C103 (aq) + ClO2 (aq) + H2O(1) Experiment [C102], M [OH-], M Initial Rate, M/s 1 0.060 0.030 0.0248 2 0 .020 0.030 0.00276 0.020 0 .090 0.00828 a. Determine...
The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they...
The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they resemble the equation for a straight line, y=mx+by=mx+b. Order Integrated Rate Law Graph Slope 0 [A]=−kt+[A]0[A]=−kt+[A]0 [A] vs. t[A] vs. t −k−k 1 ln[A]=−kt+ln[A]0ln[A]=−kt+ln[A]0 ln[A] vs. tln[A] vs. t −k−k 2 1[A]= kt+1[A]01[A]= kt+1[A]0 1[A] vs. t1[A] vs. t kk A.) The reactant concentration in a zero-order reaction was 0.100 MM after 165 ss and 4.00×10−2 MM after 305 ss . What is the...
14.1 Question 3 Learning Goal: To understand how to use integrated rate laws to solve for...
14.1 Question 3 Learning Goal: To understand how to use integrated rate laws to solve for concentration. A car starts at mile marker 145 on a highway and drives at 55 mi/hr in the direction of decreasing marker numbers. What mile marker will the car reach after 2 hours? This problem can easily be solved by calculating how far the car travels and subtracting that distance from the starting marker of 145. 55 mi/hr×2 hr=110 miles traveled milemarker 145−110 miles=milemarker...
The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they...
The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they resemble the equation for a straight line, y=mx+by=mx+b. Order Integrated Rate Law Graph Slope 0 [A]=−kt+[A]0[A]=−kt+[A]0 [A] vs. t[A] vs. t −k 1 ln[A]=−kt+ln[A]0ln[A]=−kt+ln[A]0 ln[A] vs. tln[A] vs. t −k 2 1[A]= kt+1[A]01[A]= kt+1[A]0 1[A] vs. t1[A] vs. t k Part A The reactant concentration in a zero-order reaction was 8.00×10−2 MM after 130 ss and 4.00×10−2 MM after 380 ss . What is...
Please show work and explain: The reaction A + B → C is studied similarly to...
Please show work and explain: The reaction A + B → C is studied similarly to our study of phenolphthalein fading kinetics. The corresponding rate law is Rate = k[A]m[B]m In this particular experiment, the concentration of A is sufficiently high that the pseudo-order rate law: Rate = k1[B]n can be written, where k1 = k[A]m. If the study establishes that the reaction is first order in B (n = 1) and that the pseudo rate constant k1 has the...
Chemical Kinetics 22. Given the following balanced equation, determ ng balanced equation, determine the rate of...
Chemical Kinetics 22. Given the following balanced equation, determ ng balanced equation, determine the rate of reaction with respect to (SO2). 2 502(g) + O2(8) - 2 SO3(g) A) Rate = 1152 B) Rate = 415021 C) Rate = + A[S021 D) Rate = . 3 A[SO21 E) It is not possible to determine without more information. [All, what is the new rate if the 25. A rate is equal to 0.0200 M/s. IFTA] = 0.100 M and rate concentration...
the extra credit problem
Helpful Stuff Gas Arrhenius Equation: k = Ae-Ea/RT Constant: R= 8.314 J/mol K Integrated Rate Laws and Half-Lives: Zero order: [A] = -kt + [A]. t1/2 =[A]/2k • First order: In[A] = -kt + In[A]. t1/2 = 0.693/k • Second order: 1/[A] = kt + 1/[A] t1/2 = 1/k[A] • Pseudo first order: Use first order integrated rate law for the pseudo-first order reactant; other reactant concentrations remain constant, but are still present in overall rate...
Helpful Stuff Gas Arrhenius Equation: k = Ae-Ea/RT Constant: R= 8.314 J/mol K Integrated Rate Laws and Half-Lives: Zero order: [A] = -kt + [A]. t1/2 =[A]/2k • First order: In[A] = -kt + In[A]. t1/2 = 0.693/k • Second order: 1/[A] = kt + 1/[A] t1/2 = 1/k[A] • Pseudo first order: Use first order integrated rate law for the pseudo-first order reactant; other reactant concentrations remain constant, but are still present in overall rate law 1. You study...
help! 1 , 2 and extra credit! please answer all.
1. You study the following reaction in a series of experiments: (CH),COH(aq) + HCl(aq) à (CH),CCl(aq) +H,0(1) At 100.C you obtained the following data: Experiment (CH.COH., MHCIL. M Initial Rate, M's 100 0.100 5.0 x 10 0.100 10 x 10 300 6.200 10x10 0.300 0.100 1.5 x 10 0.00 Please do the following: a. Write the rate law for the reaction. b. Indicate the order of the reaction with respect...
Thanks in advance
please just Question A , b and c
please this is chemistry based on kinetics
there's no other subject
please if you don't know the calculation based on that
question, allow other experts to help out for the solutions
Thanks in advance
Helpful Hints: Arrhenius Equation: k =
Ae–Ea/RT Gas Constant: R = 8.314 J/mol·K
Integrated Rate Laws and Half-Lives:
• Zero order: [A] = –kt + [A]0 t1/2 = [A]0/2k
• First order: ln[A] = –kt...
Useful Information: Please show your work and write in complete sentences. R= 8.314 J/mol K 1/[A].= kt +1/[A]. In k=-E/RT+ In A In [A] =-kt + In[A]. In kı/k2 = E/R (1/T2 - 1/11) 1. The following data were collected for the reaction: 2 C102(aq) + 2 OH (g) → C103 (aq) + ClO2 (aq) + H2O(1) Experiment [C102], M [OH-], M Initial Rate, M/s 1 0.060 0.030 0.0248 2 0 .020 0.030 0.00276 0.020 0 .090 0.00828 a. Determine...
Chemical Kinetics 22. Given the following balanced equation, determ ng balanced equation, determine the rate of reaction with respect to (SO2). 2 502(g) + O2(8) - 2 SO3(g) A) Rate = 1152 B) Rate = 415021 C) Rate = + A[S021 D) Rate = . 3 A[SO21 E) It is not possible to determine without more information. [All, what is the new rate if the 25. A rate is equal to 0.0200 M/s. IFTA] = 0.100 M and rate concentration...
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