Given: X → Z Test #                  [X]     rate (M/s)               &nbsp

The rate law for decomposition of acetaldehyde is rate= k[acetaldehyde]2 what is the rate of the...

The rate law for decomposition of acetaldehyde is rate= k[acetaldehyde]2 what is the rate of the reaction when the [acetaldehyde]= 1.75 x 10-3 M and the rate constant is 6.73 x 10-6 M-1 . S-1

Rate Law: Iodination of Acetone Experiment X trial   initial [A] initial [B] Rate (M/s) #1    1.00...

Rate Law: Iodination of Acetone Experiment X trial   initial [A] initial [B] Rate (M/s) #1    1.00 x 10-3 0.25 x 10-3 0.26 x 10-9 #2   1.00 x 10-3 0.50 x 10-3 0.52 x 10-9 #3   1.00 x 10-3 1.00 x 10-3 1.04 x 10-9 #4    2.00 x 10-3 1.00 x 10-3 4.16 x 10-9 #5    3.00 x 10-3 1.00 x 10-3 9.36 x 10-9 #6    4.00 x 10-3 1.00 x 10-3 16.64 x 10-9 Determine the rate law and calculate...

Using the given data, calculate the rate constant of this reaction. A+B yield C+D A [M]...

Using the given data, calculate the rate constant of this reaction. A+B yield C+D A [M] B [M] rate .370, .340 .0210 .370 .782 .111 .592 .340 .0336 STRATEGY: 1. Determine the rate law. 2. Solve the rate law for k and calculate the k value.

1) Calculate the standard cell potential (E∘) for the reaction X(s)+Y+(aq)→X+(aq)+Y(s) if K = 1.12×10−3. 2)Calculate...

1) Calculate the standard cell potential (E∘) for the reaction X(s)+Y+(aq)→X+(aq)+Y(s) if K = 1.12×10−3. 2)Calculate the standard cell potential at 25 ∘C for the reaction X(s)+2Y+(aq)→X2+(aq)+2Y(s) where ΔH∘ = -573 kJ and ΔS∘ = -415 J/K .

For:   X → Z   X is green in aqueous solution, Z is colorless in aqueous solution...

For:   X → Z   X is green in aqueous solution, Z is colorless in aqueous solution Given the following: Test #              grams X (molar mass = 40.00)           the volume of g X is negligible to total volume 1                                0.100 2                                0.200 solvent A Test #              ml water 1                    20.00 2                    20.00 Solvent A and grams of X were mixed and the time for the green color to disappear was recorded Calculate the [X] for Test 2 (remember the brackets mean concentration in...

1)A second order reaction has a rate constant of 3.7 M-1min-1. if the initial concentration of...

1)A second order reaction has a rate constant of 3.7 M-1min-1. if the initial concentration of the reactant is 0.0100M, what is the concentration remaining after 15 min? a) .0099M b) .0056M c) .0025M d) .0064M 2) the rate constant for the first order decomposition of A at 500 degrees Celsius is 9.2 x 10 to the negative 3rd powers s-1. How long will it take for 90.8 % of a 0.500M sample of A to decompose a) 2.5 x...

Given the following sample data from experiments, determine the orders m and n. Rate = k...

Given the following sample data from experiments, determine the orders m and n. Rate = k [Bleach]^m [Dye]^n Run 1) [Bleach] .08000 M [Dye] .04000 M Rate: 22.4 x 10^-3 (M/s) Run 2) [Bleach] .06500 [Dye] .02000 Rate: 3.00 x 10^-3 (M/s) Run 3) [Bleach] .02200 [Dye] .04000 Run: 0.466 x 10^-3 Run 4) [Bleach] .08000 [Dye] .02000 Rate: 5.60 x 10^-3 (M/s) Run 5) [Bleach] .04000 [Dye] .04000 Rate: 2.80 x 10^-3 (M/s) a) m = 0 and n...

Calculate ∫ ∫S f(x,y,z)dS for the given surface and function. x2+y2+z2=144, 6≤z≤12; f(x,y,z)=z2(x2+y2+z2)−1.

Calculate ∫ ∫S f(x,y,z)dS for the given surface and function. x2+y2+z2=144, 6≤z≤12; f(x,y,z)=z2(x2+y2+z2)−1.

Given the level surface S defined by f(x, y, z) = x − y3 − 2z2...

Given the level surface S defined by f(x, y, z) = x − y3 − 2z2 = 2 and the point P0(−4, −2, 1). Find the equation of the tangent plane to the surface S at the point P0. Find the derivative of f at P0in the direction of r(t) =< 3, 6, −2 > Find the direction and the value of the maximum rate of change greatest increase of f at P0; (d) Find the parametric equations of the...

The rate constant of a first-order reaction is 0.0032 x 10-4 L/mol *s at 640 K....

The rate constant of a first-order reaction is 0.0032 x 10-4 L/mol *s at 640 K. If the activation energy is 176,406J/mol, calculate the temperature at which is rate constant is 0.0039 x10 -4 L/mol*s. Show your work please.