Osmotic pressure of a dilute solution of a non volatile solute in a solvent obeying Raoult's law is proportional to the

Stoichiometry
Osmotic pressure of a dilute solution of a non volatile solute in a solvent obeying Raoult's law is proportional to the

Moles of non-volatile solute

Temperature

Volume of solution

None of these

Moles of non-volatile solute

Temperature

Volume of solution

None of these

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Stoichiometry
No cooling occurs, when an ideal gas undergoes unrestrained expansion, because the molecules

Are above the inversion temperature

Collide without loss of energy

Exert no attractive force on each other

Do work equal to loss in kinetic energy

Are above the inversion temperature

Collide without loss of energy

Exert no attractive force on each other

Do work equal to loss in kinetic energy

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Stoichiometry
Heat capacity of air can be approximately expressed as, Cp = 26.693 + 7.365 x10⁻³ T, where, Cp is in J/mole.K and T is in K. The heat given off by 1 mole of air when cooled at atmospheric pressure from 500°C to - 100°C is

16.15 kJ

18.11 kJ

18.33 kJ

10.73 kJ

16.15 kJ

18.11 kJ

18.33 kJ

10.73 kJ

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Stoichiometry
In case of a ternery system involving two liquid components and a solute, the ratio of the concentration of the solute in the two phases at equilibrium is called the distribution co-efficient. The distribution co-efficient depends upon the

Neither A nor B

Both A & B

Solute concentration

Temperature

Neither A nor B

Both A & B

Solute concentration

Temperature

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Stoichiometry
One mole of methane undergoes complete combustion in a stoichiometric amount of air. The reaction proceeds as CH₄ + 2O₂ → CO₂ + 2H₂O. Both the reactants and products are in gas phase. ΔH°298 = - 730 kJ/mole of methane. If the average specific heat of all the gases/vapour is 40 J/mole.K, the maximum temperature rise of the exhaust gases in °C would be approximately equal to

1335

1735

1525

1225

1335

1735

1525

1225

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Stoichiometry
Pick out the wrong unit conversion of heat transfer rate.

1 Watt = 1.163 kcal/hr

1 BTU/ft².hr = 2.712 kcal/m².hr

1 kcal/hr= 1.163 Watt

1 kcal/m².hr = 0.3687 BTU/ft².hr = 1.163 Watt/m²

1 Watt = 1.163 kcal/hr

1 BTU/ft².hr = 2.712 kcal/m².hr

1 kcal/hr= 1.163 Watt

1 kcal/m².hr = 0.3687 BTU/ft².hr = 1.163 Watt/m²

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Stoichiometry

Stoichiometry Osmotic pressure of a dilute solution of a non volatile solute in a solvent obeying Raoult's law is proportional to the

Stoichiometry No cooling occurs, when an ideal gas undergoes unrestrained expansion, because the molecules

Stoichiometry Heat capacity of air can be approximately expressed as, Cp = 26.693 + 7.365 x10⁻³ T, where, Cp is in J/mole.K and T is in K. The heat given off by 1 mole of air when cooled at atmospheric pressure from 500°C to - 100°C is

Stoichiometry In case of a ternery system involving two liquid components and a solute, the ratio of the concentration of the solute in the two phases at equilibrium is called the distribution co-efficient. The distribution co-efficient depends upon the

Stoichiometry Pick out the wrong unit conversion of heat transfer rate.

Stoichiometry
Osmotic pressure of a dilute solution of a non volatile solute in a solvent obeying Raoult's law is proportional to the

Stoichiometry
No cooling occurs, when an ideal gas undergoes unrestrained expansion, because the molecules

Stoichiometry
Heat capacity of air can be approximately expressed as, Cp = 26.693 + 7.365 x10⁻³ T, where, Cp is in J/mole.K and T is in K. The heat given off by 1 mole of air when cooled at atmospheric pressure from 500°C to - 100°C is

Stoichiometry
In case of a ternery system involving two liquid components and a solute, the ratio of the concentration of the solute in the two phases at equilibrium is called the distribution co-efficient. The distribution co-efficient depends upon the

Stoichiometry
Pick out the wrong unit conversion of heat transfer rate.