Q1/ if we have 1 cm^3 in liquid phase, how much will be in gas phase??...

We have a mixture, which is an ideal solution in the liquid phase and an ideal-gas...

We have a mixture, which is an ideal solution in the liquid phase and an ideal-gas mixture in the vapor phase, of n-heptane (1) and n-octane (2) at a pressure of 1 bar with z1 = 0.25. (a) What are the bubble and dew temperatures? (b) Calculate the heat required to bring the solution from its bubble temperature to its dew temperature. Please use the Antoine equations given in P11.5 to find the saturation pressures of these species. lnPsat= A-B/(C+t)...

In the rectangle of the figure the sides have lengths 5.61 cm and 12.8 cm, q1...

In the rectangle of the figure the sides have lengths 5.61 cm and 12.8 cm, q1 = -4.24 ?C, and q2 = +2.47 ?C. How much work is required to move a charge q3 = +2.91 ?C from B to A?

The follow second order, irreversible gas phase reaction AB --> A + B, where k=2.0X10^4 cm^3/mol.min...

The follow second order, irreversible gas phase reaction AB --> A + B, where k=2.0X10^4 cm^3/mol.min is allowed to decompose isothermally in a constant pressure batch reactor. The reactor initially contains pure AB with a volume of 2.0 m^3 at 2.5 atm and 500 C. Assume ideal behavior, determine the time for the reaction to reach 70% conversion (Given R = 82.05 atm cm^3/mol.K) Answer= 4.39 min.

Species A can react to species B in the gas phase (A --> B) with the...

Species A can react to species B in the gas phase (A --> B) with the equilibrium constant K. A flow system feeds 2 mol/min of A to a reactor that reaches equilibrium. The total pressure in the reactor is maintained at 1 bar. K is equal to 7. a. What are the mole fractions of A and B leaving the reactor? b. What are the exit flow rates of A and B leaving the reactor? c. A liquid that...

Using Raoult's law for water and Henry's law for nitrogen, calculate the pressure and gas-phase composition...

Using Raoult's law for water and Henry's law for nitrogen, calculate the pressure and gas-phase composition (mole fractions) in a system containing a liquid that is 1.200 mole% N2 and 98.80 mole% water in equilibrium with nitrogen gas and water vapor at 50.0°C. The Henry's law constant for nitrogen in water is recommended by NIST to be well represented by kH = 0.000625 exp[1300 (1/T – 1/298.15)] mol N2 / (kg H2O bar), where T is measured in Kelvin a)...

1) You have two charges; Q1 and Q2, and you move Q1 such that the potential...

1) You have two charges; Q1 and Q2, and you move Q1 such that the potential experienced by Q2 due to Q1 increases. Gravity should be ignored. Then, you must be: Moving Q1 closer to Q2 Moving Q1 further away from Q2 Moving in the same direction as the field due to Q1 Moving in the opposite direction to that of the field due to Q1 Any of the above 2) You move two point charges such that the potential...

U (potential energy)=(k q1 q2)/r=V¬1 (voltage)*q2 ; Ekin = (1/2) m v2 How much energy must...

U (potential energy)=(k q1 q2)/r=V¬1 (voltage)*q2 ; Ekin = (1/2) m v2 How much energy must a single electron have as it leaves a 1.5 V potential assuming it started from rest? How fast must that electron be moving as a result? How much energy can that electron release before it comes to a stop, and why?

Liquid vapor phase diagram If you have a 99% of ethanol (in more fraction) and plan...

Liquid vapor phase diagram If you have a 99% of ethanol (in more fraction) and plan to mix it with water, how would calculate how much volume of water needed to satisfy the mole composition? Assume the given ethanol volume is 100 mL.

At equilibrium conditions, three gas-phase reactions carried out in a 1.5m3 batch reactor are found to...

At equilibrium conditions, three gas-phase reactions carried out in a 1.5m3 batch reactor are found to have an overall conversion of A of 80% with individual reaction selectivity’s of 60% and 40% for reactions 1 and 2, respectively. Note that selectivity has the traditional definition (amount of A reacted in reaction i/ total amount reacted) A + 2B -> C + D    (1) A + D ->B             (2) C + B -> 2E + A   (3) Assuming that only A...

How much would 0.700 mol of 3-pentanol weigh? 3-Pentanol is a liquid with a density of...

How much would 0.700 mol of 3-pentanol weigh? 3-Pentanol is a liquid with a density of 0.815 g/mL. What would be the volume of 0.700 mol of 3-pentanol, in mL? If you have 14.6 g of ethanol, how many moles do you have?