The combustion equations of carbon and carbon monoxide are as follows: C + O₂ = CO₂, ΔH = - 394 kJ/kg . mole CO + 1/2 O₂ = CO₂, ΔH = - 284.5 kJ/kg. mole. The heat of formation of CO is __________ kJ/kg. mole.

Stoichiometry
The combustion equations of carbon and carbon monoxide are as follows: C + O₂ = CO₂, ΔH = - 394 kJ/kg . mole CO + 1/2 O₂ = CO₂, ΔH = - 284.5 kJ/kg. mole. The heat of formation of CO is __________ kJ/kg. mole.

+109.5

+180

+100

-109.5

+109.5

+180

+100

-109.5

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Stoichiometry
Raoult's law states that 'the equilibrium vapor pressure that is exerted by a component in a solution is proportional to the mole fraction of that component'. This generalisation is based on the assumption that the

Attractive forces between like and unlike molecules are approximately equal

Component molecules are non-polar and no chemical combination or molecular association between unlike molecules takes place in the formation of the solution

Sizes of the component molecules are approximately equal

All of these

Attractive forces between like and unlike molecules are approximately equal

Component molecules are non-polar and no chemical combination or molecular association between unlike molecules takes place in the formation of the solution

Sizes of the component molecules are approximately equal

All of these

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Stoichiometry
CaCO₃ contains __________ percent of Ca by weight.

48

12

96

40

48

12

96

40

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Stoichiometry
Elements in a periodic table are arranged in order of their

Metallic characteristics

Atomic number

Atomic weight

Mass number

Metallic characteristics

Atomic number

Atomic weight

Mass number

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Stoichiometry
The osmotic pressure of a solution is directly proportional to the

Lowering of vapor pressure

Molecular concentration of the solute

All of these

Absolute temperature of a given concentration

Lowering of vapor pressure

Molecular concentration of the solute

All of these

Absolute temperature of a given concentration

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Stoichiometry
Refluxing of part of the distillate in a fractionating column is a 'recycling operation', aimed primarily at

Yield enhancement

None of these

Product enrichment

Heat conservation

Yield enhancement

None of these

Product enrichment

Heat conservation

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Stoichiometry

Stoichiometry The combustion equations of carbon and carbon monoxide are as follows: C + O₂ = CO₂, ΔH = - 394 kJ/kg . mole CO + 1/2 O₂ = CO₂, ΔH = - 284.5 kJ/kg. mole. The heat of formation of CO is __________ kJ/kg. mole.

Stoichiometry Raoult's law states that 'the equilibrium vapor pressure that is exerted by a component in a solution is proportional to the mole fraction of that component'. This generalisation is based on the assumption that the

Stoichiometry CaCO₃ contains __________ percent of Ca by weight.

Stoichiometry Elements in a periodic table are arranged in order of their

Stoichiometry The osmotic pressure of a solution is directly proportional to the

Stoichiometry Refluxing of part of the distillate in a fractionating column is a 'recycling operation', aimed primarily at

Stoichiometry
The combustion equations of carbon and carbon monoxide are as follows: C + O₂ = CO₂, ΔH = - 394 kJ/kg . mole CO + 1/2 O₂ = CO₂, ΔH = - 284.5 kJ/kg. mole. The heat of formation of CO is __________ kJ/kg. mole.

Stoichiometry
Raoult's law states that 'the equilibrium vapor pressure that is exerted by a component in a solution is proportional to the mole fraction of that component'. This generalisation is based on the assumption that the

Stoichiometry
CaCO₃ contains __________ percent of Ca by weight.

Stoichiometry
Elements in a periodic table are arranged in order of their

Stoichiometry
The osmotic pressure of a solution is directly proportional to the

Stoichiometry
Refluxing of part of the distillate in a fractionating column is a 'recycling operation', aimed primarily at