Input interpretation
Cl_2 chlorine + SbCl_3 antimony(III) chloride ⟶ SbCl_5 antimony pentachloride
Balanced equation
Balance the chemical equation algebraically: Cl_2 + SbCl_3 ⟶ SbCl_5 Add stoichiometric coefficients, c_i, to the reactants and products: c_1 Cl_2 + c_2 SbCl_3 ⟶ c_3 SbCl_5 Set the number of atoms in the reactants equal to the number of atoms in the products for Cl and Sb: Cl: | 2 c_1 + 3 c_2 = 5 c_3 Sb: | c_2 = c_3 Since the coefficients are relative quantities and underdetermined, choose a coefficient to set arbitrarily. To keep the coefficients small, the arbitrary value is ordinarily one. For instance, set c_1 = 1 and solve the system of equations for the remaining coefficients: c_1 = 1 c_2 = 1 c_3 = 1 Substitute the coefficients into the chemical reaction to obtain the balanced equation: Answer: | | Cl_2 + SbCl_3 ⟶ SbCl_5
Structures
+ ⟶
Names
chlorine + antimony(III) chloride ⟶ antimony pentachloride
Equilibrium constant
Construct the equilibrium constant, K, expression for: Cl_2 + SbCl_3 ⟶ SbCl_5 Plan: • Balance the chemical equation. • Determine the stoichiometric numbers. • Assemble the activity expression for each chemical species. • Use the activity expressions to build the equilibrium constant expression. Write the balanced chemical equation: Cl_2 + SbCl_3 ⟶ SbCl_5 Assign stoichiometric numbers, ν_i, using the stoichiometric coefficients, c_i, from the balanced chemical equation in the following manner: ν_i = -c_i for reactants and ν_i = c_i for products: chemical species | c_i | ν_i Cl_2 | 1 | -1 SbCl_3 | 1 | -1 SbCl_5 | 1 | 1 Assemble the activity expressions accounting for the state of matter and ν_i: chemical species | c_i | ν_i | activity expression Cl_2 | 1 | -1 | ([Cl2])^(-1) SbCl_3 | 1 | -1 | ([SbCl3])^(-1) SbCl_5 | 1 | 1 | [SbCl5] The equilibrium constant symbol in the concentration basis is: K_c Mulitply the activity expressions to arrive at the K_c expression: Answer: | | K_c = ([Cl2])^(-1) ([SbCl3])^(-1) [SbCl5] = ([SbCl5])/([Cl2] [SbCl3])
Rate of reaction
Construct the rate of reaction expression for: Cl_2 + SbCl_3 ⟶ SbCl_5 Plan: • Balance the chemical equation. • Determine the stoichiometric numbers. • Assemble the rate term for each chemical species. • Write the rate of reaction expression. Write the balanced chemical equation: Cl_2 + SbCl_3 ⟶ SbCl_5 Assign stoichiometric numbers, ν_i, using the stoichiometric coefficients, c_i, from the balanced chemical equation in the following manner: ν_i = -c_i for reactants and ν_i = c_i for products: chemical species | c_i | ν_i Cl_2 | 1 | -1 SbCl_3 | 1 | -1 SbCl_5 | 1 | 1 The rate term for each chemical species, B_i, is 1/ν_i(Δ[B_i])/(Δt) where [B_i] is the amount concentration and t is time: chemical species | c_i | ν_i | rate term Cl_2 | 1 | -1 | -(Δ[Cl2])/(Δt) SbCl_3 | 1 | -1 | -(Δ[SbCl3])/(Δt) SbCl_5 | 1 | 1 | (Δ[SbCl5])/(Δt) (for infinitesimal rate of change, replace Δ with d) Set the rate terms equal to each other to arrive at the rate expression: Answer: | | rate = -(Δ[Cl2])/(Δt) = -(Δ[SbCl3])/(Δt) = (Δ[SbCl5])/(Δt) (assuming constant volume and no accumulation of intermediates or side products)
Chemical names and formulas
| chlorine | antimony(III) chloride | antimony pentachloride formula | Cl_2 | SbCl_3 | SbCl_5 Hill formula | Cl_2 | Cl_3Sb | Cl_5Sb name | chlorine | antimony(III) chloride | antimony pentachloride IUPAC name | molecular chlorine | trichlorostibane | pentachlorostiborane
Substance properties
| chlorine | antimony(III) chloride | antimony pentachloride molar mass | 70.9 g/mol | 228.1 g/mol | 299 g/mol phase | gas (at STP) | solid (at STP) | liquid (at STP) melting point | -101 °C | 73.4 °C | 2.8 °C boiling point | -34 °C | | 92 °C (measured at 3999 Pa) density | 0.003214 g/cm^3 (at 0 °C) | | 2.36 g/cm^3 solubility in water | | | soluble dynamic viscosity | | | 0.00191 Pa s (at 35 °C)
Units