# Page 34 Partners: Jeff Somvorachith, Connor Engels ## 10. Additivity of Heats of Reaction: Hess's Law Purpose: To practice applying Hess's Law using a coffee cup calorimeter and confirming that the heat of one reaction should be equal to the sum of the heats for the other reactions. Pre-Lab: (1) Na⁺_(aq) + OH^-_(aq) --> NaOH_(s) -ΔH₁ (2) NaOH_(s) + H⁺_(aq) + Cl^-_(aq) --> H₂O_(l) + Na⁺_(aq) +Cl^-_(aq) ΔH₂ (3) Na⁺_(aq) + OH^-_(aq) + H⁺_(aq) + Cl^-_(aq) --> H₂O_(l) + Na⁺_(aq) +Cl^-_(aq) ΔH₃ Procedure: 1. 1. Wear protective equipment. 2. Open Vernier Graphical Analysis. Connect the temperature probe. 3. Use a utility clamp and a slit stopper to suspend the temperature probe from a ring stand. 4. Place a Styrofoam cup into a 250mL beaker. Measure out 100.0mL of distilled water into the cup. Lower the temperature probe into the solution. 5. Weigh out around 2 grams of solid sodium hydroxide and record the mass to the nearest 0.01g. 6. Begin collecting data and obtain the initial temperature, t₁. After obtaining the initial temperature, add the NaOH to the cup. Stir continuously until the temperature has maximize and has begun to drop. Record the maximum temperature, t₂. After 3.3-4 minutes, data collection is completed. 7. Graph temperature vs. time(done automatically). Examine the data points along the curve to verify the values of t₁ and t₂.