1. Predict a balanced dissociation reaction for NaNO3.
2. Predict a balanced dissociation reaction for Na2SO4
The answer of the above 2 question is
1. Predict a balanced dissociation reaction for NaNO3. 2. Predict a balanced dissociation reaction for Na2SO4
D Question 6 1 pts Given the balanced chemical equation: Ba(NO3)2(aq)+ Na2SO4(aq) BaSO4(s) + 2 NaNO3(aq) ons A 0.30 L of 0.15 M Ba(NO3)2(aq) is mixed with excess Na2SO4(aq) to make 200.0 g of solution in a coffee-cup calorimeter and allowed to react completely. The temperature of the solution rises from 23.5 °C to 24.9 °C. Answer the question in each step to find ΔHrxn for this reaction. Csson-4.18 J/g °C Stirrer sources Cover Step 1: The reaction is I...
4. What is the balanced, net ionic equation for the reaction shown below: Ba(NO3)2(aq) + Na2SO4(04) 2 NaNO3(aq) + BaSO4(5) Bafty) + so lang) O Bayt + sozing) O Balty) + 2 NO 3(e) + 2 Natoy 50% 1104) – 2 Natas) + 2 NO3(aq) +BaSO4() Bafor + 2 NO 3(ay) + 2 Natal) Somalien – 2 na 102) + 2 NO3(aq) + + BaSO4(s) O 2 NO3(aq) + 2 Natas) 2 NaNO3(-)
Question 1 2 pts Given the balanced chemical equation: Thermometer Ba(NO3)2(aq) + Na2SO4(aq) →BaSO4(s) + 2 NaNO3(aq) - Stirrer A 0.30 L of 0.15 M Ba(NO3)2(aq) is mixed with excess Na2SO4(aq) to make 200.0 g of solution in a coffee-cup calorimeter and allowed to react completely. The temperature of the solution rises from 23.5 °C to 24.9 °C. Answer the question in each step to find Hrxn for this reaction. Cs,soln = 4.18 J/g °C Cover Step 1: The reaction...
.6.84 g of a mixture of NaNO3 and Na2SO4 contains 2.11 g of sodium. What is the percent by mass of NaNO3 in the mixture? O 1.96% 40.1 % 0 O 71.4%% O 28.6% 59.9% Please answer all the questions save submit
Concept Check: write down the dissociation equation and hydroiysis in water and predict their acidic, basic, or neutral properties with theirestimated K,or K, constants for the following salts. Estimated Dissociation Equation HydroiysisAcdic/Basic/Neutrali KCI KNO3 NaC NaNO3 NaC,H,02
Give the balanced equation corresponding to the enthalpy of formation of NANO3 2. give the balanced chemical equation for each the ionization energy of Lithium 3. Give the Electron Configuration of Cadnium 4. Give the orbital box diagram for Carbon
A. Hydrochloric Acid Solution and pH 1. Write the balanced chemical reaction for the dissociation of the hydrochloric acid. 2. Refer to the procedure for A to determine the concentrations of the solutions of hydrochloric acid. Remember to use MiV1-MV. Show work for trial 1. 3. Calculate the theoretical pH of each hydrochloric acid solution. Recall that hydrochloric acid is a strong acid, suggesting complete dissociation, so that the equation pH log (HO) can be used (equation 3). Show work...
PART 1: 1. dissociation reaction for 1.0 M NH4Cl 2. dissociation reaction for 0.100 M NaCH3COO 3. dissociation reaction for 0.100 M NaCl PART 2: For each of the following salts determine if the solution will be acidic, basic or neutral. Explain by showing all dissociation reactions and hydrolysis reactions where relevant. NaCl(aq) NaF(aq) NH4Cl(aq)
Which statement is TRUE about the reaction below? NaCl + AgNO3 ---> NaNO3 + Agci This reaction is not balanced. This is a recombination reaction. NaCl and AgNO3 are the products, NaNO3 and AgCl are the reactants. QUESTION 52 Balance the following equation Hgo --> Hg + O2 HgO ---> 2Hg + O2 2H30 ---> Hg + O2 2H90 --> 2Hg + O2 4H90 --> 4H9 + O2
complete the acid dissociation reaction. Make sure it is properly balanced. H3PO4(aq) → ( ) (aq) + ( ) (aq)