The given reaction
`underset(2"moles")(2CO)+underset(1"mole")(O_(2))rarr2CO_(2) " "Delta H= -560 KJ`
is carried out in one litre container, if the pressure in the container gets changes from `70 atm` to `40 atm` as reaction gets completed. Calculate `Delta U` of the reaction. `[ L atm=0.1 KJ]`

2C+O_(2)rarr2CO, Delta H= - 220 kJ which of the following statements is correct for this reaction

For the reaction 2CO(g) +O_(2)(g) rarr 2CO_(2)(g) , DeltaH=-560 kJ mol^(-1) In 1 litre vessel at 500 K, the initial pressure is 70 atm and after the reaction, it becomes 40 atm at constant volume of one litre. All the above gases show significant deviation from ideal behavious (1 L atm =0.1 kJ). the change in internal energy will be

For the real gases reaction 2CO(g)+O_(2)(g)rarr2CO_(2)(g) : DeltaH=-560kJ . In a 10 litre rigid vesel at 500K , the initial pressure is 70 bar and after the reaction it becomes 40 bar. The change in internal energy is:

For the reaction 2CO +O_(2) rarr 2CO_(2), DeltaH =- 560 kJ , 2mol of CO and 1mol of O_(2) are taken in a container of volume 1L . They completely form 2 mol of CO_(2) . The gaseous deviate appreciably from ideal behaviour. If the pressure in the vessel changes from 70 to 40atm , find the magnetic (absolute) value of DeltaU at 500K. (1 L-atm = 0.1 kJ)

If 1.0 kcal of heat is added to 1.2 L of O_(2) in a cyclinder at constant pressure of 1 atm, the volume increases to 1.5L . Calculate Delta U and Delta H of the process. (1L-atm=100J)

Consider the following reaction : CO_((g))+(1)/(2)O_(2(g)) rarr CO_(2(g)) How are Delta U and DeltaH related for the reaction ?

For the reaction C_(2)H_(4)(g)+3O_(2)(g) rarr 2CO_(2) (g) +2H_(2)O(l) , Delta E=-1415 kJ . The DeltaH at 27^(@)C is