Calculate the energy change with the correct sign) when the temperature of 100.0 mL of liquid...
Adding nitric acid to water is quite exothermic. Calculate the temperature change (AT) when 100.0 ml of water (* 100 g/muat 19.2°C [p = 75.3J/mol. °C)) and 10.0 mL of concentrated HNO3(16.5 M, AHson --33.3 kJ/mol) are combined. 1st attempt Il See Periodic Table See Hint Assume the concentrated HNO3 has a density equal to that of water and its addition doesn't add a significant amount of water to the system.
What is the final temperature of the solution when 4.806 g of sodium hydroxide is dissolved in 100.0 mL of water at an initial temperature of 24.5 C?. The density of water is 0.9969 g/cm3, and the heat capacity is 4.184 J/C. The enthalpy of dissolution for sodium hydroxide is -44.2 kJ/mol.
Calculate the final temperature that will be obtained when a 10g portion of KCL is dissolved in a coffee-cup calorimeter containing 100g of water. Specific heat of the solution is 4.084j/gc delta H sol (KCL)= 17.0kj/mol and initial temperature is 21.0. Assume that density of the solution is 1.00 g/ml and the calorimeter loses only a neglible amount of heat.
16.41 g of MgSO₄ is placed into 100.0 mL of water. The water's temperature increases by 6.7°C. Calculate ∆H, in kJ/mol, for the dissolution of MgSO₄. (The specific heat of water is 4.18 J/g・°C and the density of the water is 1.00 g/mL). You can assume that the specific heat of the solution is the same as that of water.
Based on the thermodynamic properties provided for water, determine the energy change when the temperature of 1.25 kg of water decreased from 115 °C to 42.5 °C. Property Melting point Units °C Boiling point °C ΔHus kJ/mol Value 0 100.0 6.01 40.67 37.1 75.3 33.6 kJ/mol J/mol. "C ΔHap (s) 40( J/mol. °C J/mol. °C Co (8)
Based on the thermodynamic properties provided for water, determine the energy change when the temperature of 0.850 kg of water decreased from 111 °C to 42.5 °C. Value Property Melting point Boiling point 0 100.0 6.01 Units °C °C kJ/mol kJ/mol J/mol. "C ΔHus 40.67 37.1 ΔHap cp(s) cold co (8) 75.3 J/mol. °C 33.6 J/mol. C
Based on the thermodynamic properties provided for water, determine the energy change when the temperature of 1.25 kg of water decreased from 115 °C to 42.5 °C. Value Units Property Melting point Boiling point 100.0 °C A Hius kJ/mol 6.01 40.67 37.1 kJ/mol ΔHap J/mol. "C o(s) J/mol. "C 75.3 co (0 33.6 J/mol. °C 6 (6) 3163.36
Based on the thermodynamic properties provided for water, determine the energy change when the temperature of 0.850 kg of water decreased from 123 °C to 54.5 °C. Value 0 Property Melting point Boiling point Alfus Units С °C kJ/mol 100.0 6.01 40.67 37.1 AHvap kJ/mol Co (s) J/mol · °C coln 75.3 J/mol · °C J/mol · °C Cp (g) 33.6
QUESTION 13 The solubility of a gas in a liquid (water) decreases when the temperature: Increases. Decreases. QUESTION 14 Given the chemical equation for the auto ionization of water, select the correct product that should be in the blank space. H2O + H20 = + OH H30+ OH H20 QUESTION 15 Certain solution has a hydronium concentration of 1.0 x 10-mol/L, calculate the pH and select your answer. pH = 9 pH-8 pH - 10 QUESTION 16 Solutes that when...
Based on the thermodynamic properties provided for water, determine the energy change when the temperature of 1.25 kg of water decreased from 115 °C to 42.5 °C. Property Value Units Melting point Boiling point с 100.0 6.01 A Hus kJ/mol 40.67 ΔΗνωρ Co(s) colo kJ/mol J/mol. °C 37.1 75.3 J/mol." 336 J/mol. "C