Consider a hypothetical ionic compound AB (comprised of A* and B-ions). Given the following enthalpy data and using a Born-Haber cycle calculation, predict AHlattice in kJ mol-¹. A(s) + B(s) → AB(s) AH = -376 kJ mol-¹ - A(s) → A(g) AH = 107 kJ mol-¹ B(s) → Big) AH = 105 kJ mol-1 - First ionization energy of Ag) = 500 kJ mol-¹ Electron affinity enthalpy of Big) (exothermic) = -316 kJ mol-¹

Consider a hypothetical ionic compound AB (comprised of A* and B-ions). Given the following enthalpy data and using a Born-Haber cycle calculation, predict AHlattice in kJ mol-¹. A(s) + B(s) → AB(s) AH = -376 kJ mol-¹ - A(s) → A(g) AH = 107 kJ mol-¹ B(s) → Big) AH = 105 kJ mol-1 - First ionization energy of Ag) = 500 kJ mol-¹ Electron affinity enthalpy of Big) (exothermic) = -316 kJ mol-¹

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

See similar textbooks

Similar questions

When 1.42 g of iron reacts with 1.80 g of chlorine, 3.22 g of iron(II) chloride (FeCl2, molar mass = 126.75 g/mol) and 6.8 kJ of heat is produced. What is the enthalpy change for the reaction when 1 mole of iron(II) chloride is produced? round to sig figs
The following reaction has a heat of reaction of +35.0 kJ/mol. Calculate the heat evolved or consumed when 2.5 g of Q are produced. (Formula Weight of Q = 75.0 g/mol) 3R) + 2X20) → 3Q(6) +390 J, it's endothermic O -1.2 kJ, it's exothermic -0.39 J, it's exothermic O +1.2 kJ, it's endothermic
CHAPTER 5 - PRINCIPLES OF CHEMICAL REACTIVITY: EN Previous Page 3 of 5 endothermic ✓ exothermic When 1 mole of I2 (g) reacts with Cl₂ (g) to form ICI(g) according to the following equation, 26.8 kJ of energy are evolved. 1₂ (9) + Cl₂ (9) → 21C1(g) What is the value of q? kJ NOV 11 Next → othermic or exothermic? #tv ♫ P 100 Use the References to access DO Cengage Learning | C MacB
Consider these reactions: Reaction 1: H2(g)+Cl2(g)⟶2HCl(g)ΔH=−184.6 kJ Reaction 2: 2OF2(g)⟶O2(g)+2 F2(g)ΔH=−49.4 kJ Reaction 3: N2(g)+2O2(g)⟶2NO2(g)ΔH=+66.4 kJ Use Reaction 2. How much energy (in kJ) is released when 79.0 g of oxygen difluoride decomposes?
Charcoal is primarily carbon. What mass of CO2 is produced if you burn enough carbon (in the form of charcoal) to produce 4.80 x 10² kJ of heat? The balanced chemical equation is as follows: C(s) + O2 (g) → CO2 (g), Express the mass in grams to three significant figures. VE ΑΣΦ m = ? g AHxn=-393.5 kJ
The lattice energy is defined as the energy required to break one mole of an ionic solid into its ions in the gas phase. The lattice energy for calcium oxide corresponds to the following reaction. CaO(s) Ca2+(g) + O2-(g) DH = ? Using the following information, determine the lattice energy for calcium oxide. Ca(s) ----> Ca(g) DH = 178.2 kJ Ca(g) ----> Ca2+(g) + 2e- DH = 1747.9 kJ O2(g) ----> 2O(g) DH = 498.3 kJ O2-(g) ----> O(g) + 2e- DH = -702 kJ Ca(s) + 1⁄2 O2(g) ----> CaO(s) DH = -635.0 kJ Using the unrounded answer from the previous problem determine q (kJ) for the following reaction when 1.00 grams of solid calcium oxide forms. Ca2+(g) + O2-(g) ⟶⟶ CaO(s)
Based on the following reaction: Sb (s) + 3/2 Cl2 (g) → SbCl3 (g) AH = -314 kJ How much heat would be produced for 2 mole of antimony reacting?
+ (3)CHN O2(g) NO(g) + H2O(g) --> -- -- Based on the enthalpies of formation, how much energy, in kJ, will be released when 6.46 grams of H2O(g) are produced?
8.2
Given the following two equations and their respective enthalpies: S (s) + O2(g) → SO2(g) AH = -296.8 kJ S (s) + 3/202(g) → SO3(g) AH = -395.6 kJ What is the enthalpy change, AH, for the following reaction? AH = ??? 4 SO3(g) 4 SO2(g) + 2 02(g) → 197.6 kJ 5539 kJ O-1385 kJ 395.2 kJ O-2770 kJ
25.00 mL of 0.200 M sulfuric acid was added to 25.00 mL of 0.200 M NAOH, in a constant volume calorimeter. The density of the resulting solution is 1.225 g/mL and its specific heat is 5.321 J/g-°C. As the reaction took place, the temperature of the solution rose from 22.0 °C to 31.3 °C. What is AH (in units of kJ/mol) for the reaction, per mole of water formed? This is a limiting reactant problem and your choice of limiting reactant must be justified through stoichiometric calculations. 21.
When 3.8 g A are reacted with 8.5 g D, according to the balanced chemical equation below, 33 kJ of energy are released. Please calculate the enthalpy for this reaction when 3 moles of G are produced. 2A + 3D = 2Z + 3G given molar masses: A = 141.8 g/mole D = 63.996 g/ mole Z = 4.032 g/ mole G = 56.028 g/ mole