Requiredتحمیل حل السوائل على ورقة واحدة فقطيكون الجواب عن طریق سلسة من الخطواتوالاخراج على شكل مصفوفةFor many gases the temperature dependence of the heat capacity C, of can bedescribed in terms of a cubic equation:C, = a+bT+cT+dTThe following table gives the coefficients of the cubic equation for four gases.C, is in joules/(g mol)(°C) and Tis in °C.GasdaSO238,913.904 x 102-3.105 x 108.606 x 109SO,48.509.188 x 102-8.540 x 10532.40 x 109O229.101.158 x 10-0.6076 x 101.311 x 10N229.000.2199 x 10 -0.5723 x 10 -2.871 x 10Calculate the heat capacity for each gas at temperatures ranging between 200and 400°C at 20°C increments. To present the results, create an 11 x 5matrix where the first column is the temperature, and the second through fifthcolumns are the heat capacities of SO2, SO3, O2, and N2, respectively.1 Add filePage 2 of 2ВackSubmitNever submit passwords through Google Forms.This form was created inside of Mustansiriyah

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Gas b. a SO, 38.91 3.904 x 10 -3.105 x 10 8.606 x 109 SO3 48.50 9.188 x 10 -8.540 x 105 32.40 x 10 O2 29.10 1.158 x 10-0.6076 x 10 1.31l x 10 N2 29.00 0.2199 x 10 -0.5723 x 10 -2.871 x 10 Calculate the heat capacity for each gas at temperatures ranging between 200 and 400°C at 20°C increments. To present the results, create an 11 x 5 matrix where the first column is the temperature, and the second through fifth columns are the heat capacities of SO,, so3, 02, and N2, respectively. dd file

Gas b. a SO, 38.91 3.904 x 10 -3.105 x 10 8.606 x 109 SO3 48.50 9.188 x 10 -8.540 x 105 32.40 x 10 O2 29.10 1.158 x 10-0.6076 x 10 1.31l x 10 N2 29.00 0.2199 x 10 -0.5723 x 10 -2.871 x 10 Calculate the heat capacity for each gas at temperatures ranging between 200 and 400°C at 20°C increments. To present the results, create an 11 x 5 matrix where the first column is the temperature, and the second through fifth columns are the heat capacities of SO,, so3, 02, and N2, respectively. dd file

Principles of Modern Chemistry

8th Edition

ISBN:9781305079113

Author:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler

Publisher:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler

Chapter12: Thermodynamic Processes And Thermochemistry

Section: Chapter Questions

Problem 66AP

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