The rate at which tree crickets chirp is 2.00 × 102 per minute at 28 °...
The rate at which tree crickets chirp is 2.00
×
102 per minute at 28
°
C but only 39.6 per minute at 8.5
°
C. From these data, calculate the activation energy for the
chirping process.
kJ/mol
Homework Answers
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The rate at which tree crickets chirp is 2.00
×
102 per minute at 28
°...
The rate at which tree crickets chirp is 2.10 × 102 per minute at 29°C but...
The rate at which tree crickets chirp is 2.10 × 102 per minute at 29°C but only 42.6 per minute at 6.5°C. From these data, calculate the activation energy for the chirping process.
12. The first-order rate constant for the reaction of methyl chloride (CH3Cl) with water to produce...
12. The first-order rate constant for the reaction of methyl chloride (CH3Cl) with water to produce methanol (CH3OH) and hydrochloric acid (HCl) is 3.32 × 10−10 s−1 at 25°C. Calculate the rate constant at 52.1°C if the activation energy is 116 kJ/mol. _____ ×10^____ s−1 (Enter your answer in scientific notation.) 14. The rate constant of a first-order reaction is 2.75 × 10−4 s−1 at 350.°C. If the activation energy is 101 kJ/mol, calculate the temperature at which its rate constant...
24. We had a homework problem in which the Arrhenius equation was applied to the blinking...
24. We had a homework problem in which the Arrhenius equation was applied to the blinking of fireflies. Several other natural phenomena also obey that equation, including the temperature dependent chirping of crickets. A particular species, the snowy tree cricket, has been widely studied. These crickets chirp at a rate of 178 times per minute at 25.0°C, and the activation energy for the chirping process is 53.9 kJ/mol. What is the temperature if the crickets chirp at a rate of...
3. Naturalists have long known that you can use the rate at which crickets chirp to...
3. Naturalists have long known that you can use the rate at which crickets chirp to predict the temperature. Below are some data. Enter them in your trusty T Chirps in 1 minutes 882 1188 | 1104864 1200 ) 1032 1960 9oo Temperature (F69.7 93.3 84.3 76.3 88.6 82.6 716 79.6 a) What would be a good window for a scatter plot? b) Using that window, sketch the scatter plot. c). Find the equation of the regression bie d). Is...
What is the answer to part (b), not in scientific notation? Additional Exercise 13.123 The rate...
What is the answer to part
(b), not in scientific notation?
Additional Exercise 13.123 The rate at which crickets chirp depends on the ambient temperature, because crickets are cold blooded insects whose body temperature follows the temperature of their environment. It has been found that the Celsius temperature can be estimated by counting the number of chirps in 8 seconds and then adding 4. In other words, te= (number of chirps in 8 seconds) + 4. Correct (a) Calculate the...
Calculate the activation energy for the decomposition of hydrogen iodide (HI), if at 573K the rate...
Calculate the activation energy for the decomposition of
hydrogen iodide (HI), if at 573K the rate constant is 2.91E-6 M/s;
and at 773K the rate constant is 7.65E-2 M/s.
Note: answer should be 187.38 kJ/mol
Calculate the activation energy for the decomposition of hydrogen iodide (HI), if at 573 °K the rate constant is 2.91 x 106 M/s; and at 773 "K the rate constant is 7.65 x 102 M/s. a. -1.41 kJ/mol b. 187.38 kJ/mol c. 10.18 kJ/mol d....
The data show the bug chirps per minute at different temperatures. Find the regression equation, letting...
The data show the bug chirps per minute at different temperatures. Find the regression equation, letting the first variable be the independent (x) variable. Find the best predicted temperature for a time when a bug is chirping at the rate of 3000 chirps per minute. Use a significance level of 0.05. What is wrong with this predicted value? Chirps in 1 min 939 1172 961 983 1213 1012 Temperature (°F) 77.6 91 74.7 81.7 92.478.1 What is the regression equation?...
1) Calculate the activation energy in kJ/mol for the following reaction if the rate constant for...
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...
Question Hep The data show the bug chirps per minute at different temperatures Find the regression...
Question Hep The data show the bug chirps per minute at different temperatures Find the regression equation letting the first variable be the independent [) variable Find the best predicted temperature for a time when a bug is chirping at the rate of 3000 chirps per minute Use a sigrificance level of 0.05 What is wrong with this predicted value? 1m7F) +005 1020부 1193 1243 995 1070 904 1193 1247 1075 p 81 82 73 872 883 843 Temperature (...
1. The forward reaction HOCI → HCIO has an activation energy of 311 kJ/mol. The reverse...
1. The forward reaction HOCI → HCIO has an activation energy of 311 kJ/mol. The reverse reaction HCIO → HOCI has an activation energy of 31 kJ/mol. Both reactions occur at 25 °C. a. Which reaction is exothermic: HOCI → HCIO or HCIO → HOCI? Briefly explain. b. Determine the AE for the reaction HOCI → HCIO. Is the reaction endothermic or exothermic? c. Assuming the Arrhenius constant for the reaction HCIO → HOCI is 5.2 x 102 s', calculate...
24. We had a homework problem in which the Arrhenius equation was applied to the blinking of fireflies. Several other natural phenomena also obey that equation, including the temperature dependent chirping of crickets. A particular species, the snowy tree cricket, has been widely studied. These crickets chirp at a rate of 178 times per minute at 25.0°C, and the activation energy for the chirping process is 53.9 kJ/mol. What is the temperature if the crickets chirp at a rate of...
3. Naturalists have long known that you can use the rate at which crickets chirp to predict the temperature. Below are some data. Enter them in your trusty T Chirps in 1 minutes 882 1188 | 1104864 1200 ) 1032 1960 9oo Temperature (F69.7 93.3 84.3 76.3 88.6 82.6 716 79.6 a) What would be a good window for a scatter plot? b) Using that window, sketch the scatter plot. c). Find the equation of the regression bie d). Is...
What is the answer to part
(b), not in scientific notation?
Additional Exercise 13.123 The rate at which crickets chirp depends on the ambient temperature, because crickets are cold blooded insects whose body temperature follows the temperature of their environment. It has been found that the Celsius temperature can be estimated by counting the number of chirps in 8 seconds and then adding 4. In other words, te= (number of chirps in 8 seconds) + 4. Correct (a) Calculate the...
Calculate the activation energy for the decomposition of
hydrogen iodide (HI), if at 573K the rate constant is 2.91E-6 M/s;
and at 773K the rate constant is 7.65E-2 M/s.
Note: answer should be 187.38 kJ/mol
Calculate the activation energy for the decomposition of hydrogen iodide (HI), if at 573 °K the rate constant is 2.91 x 106 M/s; and at 773 "K the rate constant is 7.65 x 102 M/s. a. -1.41 kJ/mol b. 187.38 kJ/mol c. 10.18 kJ/mol d....
The data show the bug chirps per minute at different temperatures. Find the regression equation, letting the first variable be the independent (x) variable. Find the best predicted temperature for a time when a bug is chirping at the rate of 3000 chirps per minute. Use a significance level of 0.05. What is wrong with this predicted value? Chirps in 1 min 939 1172 961 983 1213 1012 Temperature (°F) 77.6 91 74.7 81.7 92.478.1 What is the regression equation?...
Question Hep The data show the bug chirps per minute at different temperatures Find the regression equation letting the first variable be the independent [) variable Find the best predicted temperature for a time when a bug is chirping at the rate of 3000 chirps per minute Use a sigrificance level of 0.05 What is wrong with this predicted value? 1m7F) +005 1020부 1193 1243 995 1070 904 1193 1247 1075 p 81 82 73 872 883 843 Temperature (...
1. The forward reaction HOCI → HCIO has an activation energy of 311 kJ/mol. The reverse reaction HCIO → HOCI has an activation energy of 31 kJ/mol. Both reactions occur at 25 °C. a. Which reaction is exothermic: HOCI → HCIO or HCIO → HOCI? Briefly explain. b. Determine the AE for the reaction HOCI → HCIO. Is the reaction endothermic or exothermic? c. Assuming the Arrhenius constant for the reaction HCIO → HOCI is 5.2 x 102 s', calculate...
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