for correct answer you want the sublimation enthalpy of Ba....
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Lattice energy for BACL2 and chemical requation that represents BACL2 The question was what’s the lattice...
Using the data given below, sketch a Born-Haber cycle for the formation of BaC2(s) and insert the various equations and energy values into the individual steps of your cycle Sublimation energy for Ba(s) +180 kJmol1 Electron affinity for Cl(g)-346 kJmol1 First ionization energy for Ba(g)-+514 kJmol1 Bond dissociation energy for Clh(g) +243 kJmol Enthalpy of formation of BaCl2: Ba(s) + Ch(g) BaCh(s)--610 kJmol Lattice energy. Ba2+(g) + 2Cl.(g) → BaCl2(s)--2075 kJmol-1 Calculate the second ionization energy for Ba+(g) → Ba2+(g)...
Given the following information, calculate the lattice energy of CaF2 The enthalpy of formation of CaF2 -1228 kJ/mol Heat of sublimation of Ca 177.8 kJ/mol Bond dissociation energy of F2 159 kJ/mol First ionization energy of Ca 589.8 kJ/mol Second ionization energy of Ca 1145.4 kJ/mol . Electron affinity of F -328 kJ/mot [ Answer : -2644 KJİ I
Write down the chemical equation for the 2nd ionization (IE2)
energy for calcium. Follow the instructions below:
Calculate IE2 for calcium using the data listed below. For each data item, write down the chemical equation associated with the process (i.e., that defines the process) - making sure to indicate all phases. In order to show your work, demonstrate, using Hess' law, how you came up with the Born-Haber cycle that lead to the net chemical equation for the IE2 of...
BP) - Fall19 - JAIN > Activities and Due Dates > HW 9 Resources Consider an ionic compound, MX, composed of generic metal M and generic, gaseous halogen X. • The enthalpy of formation of MX, is AH; = -965 kJ/mol. • The enthalpy of sublimation of Mis AH sub = 133 kJ/mol. • The first and second ionization energies of M are IE - 731 kJ/mol and IE, - 1384 kJ/mol. • The electron affinity of X is AHEA...
Which of the following reaction represents the ionization energy of potassium? Question 25 options: P(g) + IE --> P+(g) + e- K(s) + IE --> K+(s) + e- K(g) + IE --> K+(g) + e- P(g) + e- --> P+(g) + IE
Review I Constants I P Chemical energy is released or absorbed from reactions in Part A various forms. The most easily measurable form of energy comes in the form of heat, or enthalpy. The enthalpy of a reaction can be calculated from the heats of formation of the Calculate the standard enthalpy change for the reaction substances involved in the reaction: 2AB2C +2D ΔΗΣ n,ΔΗ (products)-Σn, ΔΗ (reactants) Use the following data: where n represents the stoichiometric coefficients ΔΗ (kJ/mol)...