c6h6+3h6 --> c6h12 equilibrium equation
70 g of benzene (C6H6) is reacted with extess hydroach to produce tyclohexane (C6H12) according to the reaction below. 42 g of cyclohexane is produced. What is the percent yield? C6H6 + 3 H2 → C6H12 a) 40% b) 45% c) 50% d) 54% e) 60% Theoretic Actual
Benzene (C6H6) and cyclohexane (C6H12) form an ideal solution at 25°C. The density of benzene is 0.876 g/cm 3 and the density of cyclohexane is unknown.A liquid mixture is prepared by mixing 357 mL of benzene and 643 mL of cyclohexane. The vapor in equilibrium with this liquid has a mole fraction of benzene of 0.4. What is the density of cyclohexane in units of g/cm3? Data: Vapor pressure of benzene = 99 mmHg, at 25°C Vapor pressure of cyclohexane...
Cyclohexane is manufactured from the reaction of benzene with hydrogen: C6H6(g) + 3 H2(g) → C6H12(g) If the initial concentration of hydrogen was 1.5 M and 5 minutes later the hydrogen concentration is 0.34 M, what is the average rate of appearance of cyclohexane? 0.39 M/min 7.7 x 10-2M/min 4.6 M/s 3.9 x 10- 2M/hr 2.3 M/min
Cyclohexane, C6H12, undergoes a molecular rearrangement in the presence of AlCl3 to form methylcyclopentane, CH3C5H9, according to the equation: C6H12 → CH3C5H9 If Kc = 0.143 at 25°C for this reaction, find the equilibrium concentrations of C6H12 and CH3C5H9 if the initial concentrations are 0.200 M and 0.050 M, respectively. Cyclohexane, C6H12, undergoes a molecular rearrangement in the presence of AlCl3 to form methylcyclopentane, CH3C5H9, according to the equation: C6H12 → CH3C5H9 If Kc = 0.143 at 25°C for this...
37. Which of these formulas is/are) not theoretically possible? A. C6H6 B. CH10 C. C6H12 D. C6H14 E. C6H16 15. This is a double displacement reaction. A. H2SO4 + Zn → ZnSO4 + H2 B. CaCO3) CaO + CO2 C. C+ O2 + CO2 D. CH4 + 202 → CO2 + 2H2O E. AgNO3 + NaCl → NaNO3 + Agci 16. When combining with other elements, alkaline earth metals tend to form A. anions with 2 charges B. anions with...
Question 1 (5 points) Cyclohexane, C6H12, undergoes a molecular rearrangement in the presence of a catalyst to form methylcyclopentane, CH3C5H9, according to the equation: C6H12 - CH3C5H9 If Kc = 0.143 at 25°C for this reaction, find the equilibrium concentrations of C6H12 and CH3C5H9 if the initial concentrations are 0.200 M and 0.075 M, respectively. [C6H12] = 0.241 M, [CH3C5H9] = 0.034 M (C6H12] = 0.082 M, [CH3C5H9] = 0.062 M [C6H12] = 0.159 M, [CH3C5H9] = 0.116 M [C6H12]...
Question 9 (5 points) Cyclohexane, C6H12, undergoes a molecular rearrangement in the presence of a catalyst to form methylcyclopentane, CH3C5H9, according to the equation: C6H12 = CH3C5H9 If Kc = 0.143 at 25°C for this reaction, find the equilibrium concentrations of C6H12 and CH3C5Hg if the initial concentrations are 0.200 M and 0.075 M, respectively. [C6H12] = 0.253 M, [CH3C5H9] = 0.022 M [C6H12] = 0.041 M, [CH3C5H9] = 0.041 M [C6H12] = 0.241 M, [CH3C5H9] = 0.034 M [C6H12]...
A 3.314−g sample of a mixture of cyclohexane (C6H12) and naphthalene (C10H8) is dissolved in 45.40 g of benzene (C6H6). The freezing point of the solution is 2.00 ° C. Calculate the mass percent of the mixture.
how do you write a chemical reaction equation of Cl2 + Br2 + H2O + C6H12 ——>?
Refer to the following equation.C6H6(g)+3H2(g) ⇄ C6H12(g)When 1.00 MC6H6 and 3.00 MH2 are in a container and allowed to reach equilibrium at elevated temperature, the resulting mixture contains 0.137 M C6H6}. What is the value for KC at this temperature?Hit, you are given an equilibrium value, and you can use it to find other equilibrium values which you need to find KC7.72 × 10^{-2}6.37 × 10^{-2}3.05 × 10^{-4}9.50 × 10^{-1}2.36 × 10^{4}0.658