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Need to graph in excel, complete numbers 1 and 2. will thumbs
up for completing correctly....
5. The decomposition of ozone is important to many atmospheric reactions: O3(g) à O2(g) + O(g)...
5. The decomposition of ozone is important to many atmospheric reactions: O3(g) à O2(g) + O(g) A study of the kinetics of the reaction resulted in the following data: Temperature (K) Rate Constant (M-1·s-1) Temperature (K) Rate Constant (M-1·s-1) 600 3.37 x 103 1300 7.83 x 107 700 4.85 x 104 1400 1.45 x 108 800 3.58 x 105 1500 2.46 x 108 900 1.70 x 106 1600 3.93 x 108 1000 5.90 x 106 1700 5.93 x 108 1100...
4. Include a graph (made in Excel) of In(rate) vs. 1/T (where T is in Kelvin)....
4. Include a graph (made in Excel) of In(rate) vs. 1/T (where T is in Kelvin). The slope of this line can be used to determine the activation energy (see Equation 5 of the lab manual) 5. Show the calculation for the determination of the activation energy and report this value (including units!). Time Volume Vol S203 H2O 20 30 20 30 20 30 20 30 20 30 Vol HCI Temp Initial 5 10.2 20. 6 5 29. 7 45.2...
Need help with the first picture. Data provided in pictures #2 & #3 Determining the Activation...
Need help with the first picture. Data provided in pictures #2
& #3
Determining the Activation Energy and Collision Frequency Factor for Reaction 1 Part 1. Transfer the reaction rate for runs 9.12 from Data Sheet 3. Then calculate the rate constant (R) at each temperature based on the reaction orders determined in parts and Record the results in Tables * = 18,0 ->15.0416"5,0216" Equation 6 ->25 10 2. Calculate the natural logarithm of the rate constant. In ) and...
1. (2 pts each) The graph of some unknown function f is given below. 10 6/ 8-64-2 624 10 12 Use the graph to estimate the following quantities: (0 f (9) (g) f(4) b) lim (a) lim (e) (d) lim ( 6)...
1. (2 pts each) The graph of some unknown function f is given below. 10 6/ 8-64-2 624 10 12 Use the graph to estimate the following quantities: (0 f (9) (g) f(4) b) lim (a) lim (e) (d) lim ( 6) (e) lim f(x) (c) lim f(x) if g(x)f(x) 6) a value of r where f is continuous but not differentiable (k) a value of r where f"(x) 0 and f"(x)>0 (1) the location of a relative maximum value...
Gain (V/V) R Setting Totals Averages Sample 1 Sample 2 Sample 3 4 ап 7.8 8.1...
Gain (V/V) R Setting Totals Averages Sample 1 Sample 2 Sample 3 4 ап 7.8 8.1 7.9 3 5.2 6.0 4.3 = 359.3 i=1 j=1 2 4.4 6.9 3.8 1 2.0 1.7 0.8 This is actual data from one of Joe Tritschler's audio engineering experiments. Use Analysis of Variance (ANOVA) to test the null hypothesis that the treatment means are equal at the a = 0.05 level of significance. Fill in the ANOVA table. Source of Variation Sum of Squares...
Gain (V/V) R Setting Totals Averages Sample 1 Sample 2 Sample 3 4 ап 7.8 8.1...
Gain (V/V) R Setting Totals Averages Sample 1 Sample 2 Sample 3 4 ап 7.8 8.1 7.9 3 5.2 6.0 4.3 = 359.3 i=1 j=1 2 4.4 6.9 3.8 1 2.0 1.7 0.8 This is actual data from one of Joe Tritschler's audio engineering experiments. Use Analysis of Variance (ANOVA) to test the null hypothesis that the treatment means are equal at the a = 0.05 level of significance. Fill in the ANOVA table. Source of Variation Sum of Squares...
I need guidance here is the graph that I just created for #2 FI= \kAl 1....
I need guidance
here is the graph that I just created for #2
FI= \kAl 1. Where k is the spring constant and Al is the change in the length of the spring. This relationship is called Hooke's Law. In your class vou will discuss this in more detail and include direction, and any appropriate offset or discussion of relaxed or equilibrium position. we find the spring constant by applying a force and measuring how far the spring stretches from...
Table 3: Experimental Data for Part 2: Determination of Activation Energy k Time* T* [1] [S,0,?]...
Table 3: Experimental Data for Part 2: Determination of Activation Energy k Time* T* [1] [S,0,?] Rate (M/s) (s) (C) (M) (M) Run 3 153 20.5 .0208 .0416 4.03*10^-6 4.65*10^-3 (Room T) Run 6 198 9 .0208 .0416 3.15*10^-6 3.64*10^-3 (Cool) Run 7 112 31 .0208 .0416 5.58*10^-6 6.45*10^-3 (Warm) Run 8 40 51 .0208 .0416 1.56*10^-5 1.80*10^-2 (Warmer) 1/T (1/K) In k Run 3 1/293.5 -5.37 Run 6 1/282 -5.62 Run 7 1/304 -5.044 Run 8 1/324 -4.02 20....
just one example/demonstration! Data needed to be calculated is in highlighted in green boxes. And I...
just one example/demonstration!
Data needed to be calculated is in highlighted in green boxes.
And I highlighted in red an equation (not sure if thats what you
use to calculate it) And ignore the lab instructions on completeing
a graph!! I already know how to do that in excel, just curious how
Ln (relative rate) and 1/T in K^-1 is calculated by hand*
here is the rest of that lab leading up to the question as I
know its typically...
1. (3 points) Complete each of the following reactions. a. 0Fe decays through negatron emission, what...
1. (3 points) Complete each of the following reactions. a. 0Fe decays through negatron emission, what is the resulting nuclide? b. Positron emission of 3015P produces what nuclide? 2a c. 15W + 2. (3 points) Predict the decay for each of the radioactive isotopes below AND determine the resulting nuclide after the decay. a. 502V b. 2410Ne c. 210sPo 3. (1 points) The half-life for "0K is 1.3 x 10° years. What percent of the original remains after 6.5 x...
4. Include a graph (made in Excel) of In(rate) vs. 1/T (where T is in Kelvin). The slope of this line can be used to determine the activation energy (see Equation 5 of the lab manual) 5. Show the calculation for the determination of the activation energy and report this value (including units!). Time Volume Vol S203 H2O 20 30 20 30 20 30 20 30 20 30 Vol HCI Temp Initial 5 10.2 20. 6 5 29. 7 45.2...
Need help with the first picture. Data provided in pictures #2
& #3
Determining the Activation Energy and Collision Frequency Factor for Reaction 1 Part 1. Transfer the reaction rate for runs 9.12 from Data Sheet 3. Then calculate the rate constant (R) at each temperature based on the reaction orders determined in parts and Record the results in Tables * = 18,0 ->15.0416"5,0216" Equation 6 ->25 10 2. Calculate the natural logarithm of the rate constant. In ) and...
1. (2 pts each) The graph of some unknown function f is given below. 10 6/ 8-64-2 624 10 12 Use the graph to estimate the following quantities: (0 f (9) (g) f(4) b) lim (a) lim (e) (d) lim ( 6) (e) lim f(x) (c) lim f(x) if g(x)f(x) 6) a value of r where f is continuous but not differentiable (k) a value of r where f"(x) 0 and f"(x)>0 (1) the location of a relative maximum value...
Gain (V/V) R Setting Totals Averages Sample 1 Sample 2 Sample 3 4 ап 7.8 8.1 7.9 3 5.2 6.0 4.3 = 359.3 i=1 j=1 2 4.4 6.9 3.8 1 2.0 1.7 0.8 This is actual data from one of Joe Tritschler's audio engineering experiments. Use Analysis of Variance (ANOVA) to test the null hypothesis that the treatment means are equal at the a = 0.05 level of significance. Fill in the ANOVA table. Source of Variation Sum of Squares...
Gain (V/V) R Setting Totals Averages Sample 1 Sample 2 Sample 3 4 ап 7.8 8.1 7.9 3 5.2 6.0 4.3 = 359.3 i=1 j=1 2 4.4 6.9 3.8 1 2.0 1.7 0.8 This is actual data from one of Joe Tritschler's audio engineering experiments. Use Analysis of Variance (ANOVA) to test the null hypothesis that the treatment means are equal at the a = 0.05 level of significance. Fill in the ANOVA table. Source of Variation Sum of Squares...
I need guidance
here is the graph that I just created for #2
FI= \kAl 1. Where k is the spring constant and Al is the change in the length of the spring. This relationship is called Hooke's Law. In your class vou will discuss this in more detail and include direction, and any appropriate offset or discussion of relaxed or equilibrium position. we find the spring constant by applying a force and measuring how far the spring stretches from...
Table 3: Experimental Data for Part 2: Determination of Activation Energy k Time* T* [1] [S,0,?] Rate (M/s) (s) (C) (M) (M) Run 3 153 20.5 .0208 .0416 4.03*10^-6 4.65*10^-3 (Room T) Run 6 198 9 .0208 .0416 3.15*10^-6 3.64*10^-3 (Cool) Run 7 112 31 .0208 .0416 5.58*10^-6 6.45*10^-3 (Warm) Run 8 40 51 .0208 .0416 1.56*10^-5 1.80*10^-2 (Warmer) 1/T (1/K) In k Run 3 1/293.5 -5.37 Run 6 1/282 -5.62 Run 7 1/304 -5.044 Run 8 1/324 -4.02 20....
just one example/demonstration!
Data needed to be calculated is in highlighted in green boxes.
And I highlighted in red an equation (not sure if thats what you
use to calculate it) And ignore the lab instructions on completeing
a graph!! I already know how to do that in excel, just curious how
Ln (relative rate) and 1/T in K^-1 is calculated by hand*
here is the rest of that lab leading up to the question as I
know its typically...
1. (3 points) Complete each of the following reactions. a. 0Fe decays through negatron emission, what is the resulting nuclide? b. Positron emission of 3015P produces what nuclide? 2a c. 15W + 2. (3 points) Predict the decay for each of the radioactive isotopes below AND determine the resulting nuclide after the decay. a. 502V b. 2410Ne c. 210sPo 3. (1 points) The half-life for "0K is 1.3 x 10° years. What percent of the original remains after 6.5 x...
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