1)
The rate law of a reaction is rate =k[X]³. The units of the rate constant are
L mol-1 s-1
mol² L-2 s-1
mol L-1S-2
L² mol-2 s-1
mol L-1S-1
2)
Given the following rate law, how does the rate of reaction change if the concentration of Z is tripled?
Rate =k[X]³[Y]²[Z]⁰
The rate of reaction will increase by a factor of
1
3
6
8
0
3)
What data should be plotted to show that experimental concentration data fits a first-order reaction?
1 / [reactant] vs. time
[reactant] vs. time
ln (k) vs. Ea
ln (k) vs. 1 / T
ln [ reactant ] vs. time
The rate law of a reaction is rate =k[X]³. The units of the rate constant are
What data should be plotted to show that experimental concentration data fits a first-order reaction? ln(k) vs. Ea ln[reactant] vs. time ln(k) vs. 1/T 1/[reactant] vs. time [reactant] vs. time
Whole page please 81 What data should be plotted to show that experimental concentration data fits a second- order reaction? ANSWER: A) 1/(reactant) vs. time B) [reactant) vs. time C) In[reactant) vs. time C) In(k) vs. 1/T E) In(k) vs. Ea 9) Given the following rate law, how does the rate of reaction change if the concentration of Y is doubled? Rate = k [X]2[M3 ANSWER: 10) A reaction is followed and found to have a rate constant of 3.36...
please help with these two question please QUESTION 24 What data should be plotted to show that experimental concentration data fits a second-order reaction? O In(k) vs. 1/1 O 1/[reactant) vs. time O In[reactant) vs. time O [reactant) vs. time In(k) vs. Ea QUESTION 25 The slope and intercept of an Arrhenius plot made for the first-order decomposition reaction are -9485.7K and 27.882 at 303K, what is the value of the activation energy (KJ/mol) at this temperature? *Please report 3...
Question 3.a) The reaction A --> 2P exhibits the following rate law: rate = k * [A]. (k = 1.80 L mol-1s-1). How long will it take for the concentration of A to reduce to 15.00% of the initial value? Question 3.b) The reaction A --> 2P exhibits the following rate law: rate = k * [A]. (k = 1.40 L mol-1s-1). How long will it take for the concentration of A to reduce to 10.00% of the initial value?
1) Calculate the activation energy in kJ/mol for the following reaction if the rate constant for the reaction increases from 93.5 M-1s-1 at 497.7 K to 1349.3 M-1s-1 at 636.7 K. do not include units, but make sure your answer is in kJ/mol! 2) A chemist constructs a plot of ln k vs. 1/T for a chemical reaction. The slope of the trendline for the data is -746 K. What is the activation energy for this reaction in kJ/mol? R...
Experimental data is collected for the reaction shown below, with the following rate law: rate=k[NO2]2. What are the units of the rate constant for the reaction? NO2(g)+CO(g)→NO(g)+CO2(g) Trial123[NO2] (mol/L)0.060.060.09[CO] (mol/L)0.060.090.06Rate(mol L−1s−1)1.5408×10−61.5408×10−63.4668×10−6
What are the units of the rate constant for a reaction whose rate law is second order with respect to reactant A and zero order with respect to reactant B? A. L * mol^-1 * s^-1 B. L * mol^-1 * s C. L^2 * mol^-2 * s^-1 D. L^2 * mol^-2 * s^-2 E. L^-1/2 * mol^1/2 * s^-1
What are the units of k in the following rate law? Rate = k[x][y]^2 1/M s^2 1/M^2 s M^2 s M^2/s 1/M^3 s Given the following rate law, how does the rate of reaction change if the concentration of Y is doubled? Rate = k [X][Y]^2 the rate reaction will increase by a factor of 2 The rate of reaction will increase by a factor of 4. The rate of reaction will increase by a factor of 5. The rate...
For a reaction that follows the general rate law, rate = k[A]2 [B], what will happen to the rate of reaction if the concentration of A is increased by a factor of 4 and B is increased by a factor of 2? 1) (3 points) For a reaction that follows the general rate law, rate = k[A]”[B], what will happen to the rate of reaction if the concentration of A is increased by a factor of 4 and B is...
Part A: The rate constant for a certain reaction is k = 1.90×10−3 s−1 . If the initial reactant concentration was 0.150 M, what will the concentration be after 7.00 minutes? Part B: A zero-order reaction has a constant rate of 4.60×10−4 M/s. If after 30.0 seconds the concentration has dropped to 8.00×10−2 M, what was the initial concentration? Part C: A certain reaction has an activation energy of 60.0 kJ/mol and a frequency factor of A1 = 7.80×1012 M−1s−1...