Chemistry Exam > Chemistry Questions > For the reaction,2CO + O2→2CO2; ΔH...
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For the reaction,
2CO + O2 → 2CO2; ΔH = -560KJ
Two moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]
Two moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]
Correct answer is between '-559.00,-556.00'. Can you explain this answer?
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For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO ...
The balanced equation for this reaction is:
2CO + O2 -> 2CO2
2CO + O2 -> 2CO2
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For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer?
Question Description
For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer? for Chemistry 2024 is part of Chemistry preparation. The Question and answers have been prepared according to the Chemistry exam syllabus. Information about For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer? covers all topics & solutions for Chemistry 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer?.
For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer? for Chemistry 2024 is part of Chemistry preparation. The Question and answers have been prepared according to the Chemistry exam syllabus. Information about For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer? covers all topics & solutions for Chemistry 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer?.
Solutions for For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer? in English & in Hindi are available as part of our courses for Chemistry.
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For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer?, a detailed solution for For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer? has been provided alongside types of For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice For the reaction,2CO + O2→2CO2; ΔH = -560KJTwo moles of CO and one mole of O2 are taken in a container of volume 1L. They completely form two moles of CO2, the gases deviated appreciably from ideal behavior. If the pressure in the vessel changes from 70 to 40 atm, find the magnitude (kJ) of ∆U at 500 K. (1L atm = 0.1 kJ) [rounded up to two decimal places]Correct answer is between '-559.00,-556.00'. Can you explain this answer? tests, examples and also practice Chemistry tests.
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