Example: orange juice from frozen concentrate.

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Dilution: a process in which the concentration (molarity) of a solution is lowered. The amount of solute (atoms, moles, grams, etc.) remains the same, but the volume is increased by adding more solvent. Example: orange juice from frozen concentrate. moles stock = moles diluted Stock solution: the more concentrated solution that is used to make the less concentrated solution. A sample of the stock solution is diluted by adding more solvent to the sample. M stock x V stock = moles stock = moles diluted = M diluted x V diluted moles x L = moles L moles stock = moles diluted

Example: moles stock = moles diluted A stock solution of urea (NH 2 ) 2 CO has a concentration of 2.94 x 10-2 M. How many milliliters (ml) of the stock solution are needed to prepare 500* ml of a solution with a concentration of 1.35 x 10-3 M? V stock =? 2

More on molarity and mole calculations Four variables involved in dilutions: 1. Find concentration of diluted solution (M f ). 2. Find volume of diluted solution (V f ). 3. Find original (stock) concentration (M i ). 4. Find original (stock) volume (V i ). Similar to four variables involved in titrations: 1. Find concentration of acid solution (M acid ). 2. Find volume of acid solution (V acid ). 3. Find concentration of base solution (M base ). 4. Find volume of base solution (V base ). Figure 5.15 summarizes calculations so far using mole ratio concept for chemical formulas (Chapter 3) and chemical reactions (Chapter 4) to convert between moles A <--> moles B. Figure 5.15 summarizes calculations so far to relates moles of a substance using MM (Chapter 3) to convert between grams <--> moles and using Molarity (Chapter 5) to convert between volume (liters) <--> moles. 3

Energy transfer for physical processes Main concepts 1. Conservation of energy 2. Mole ratio q = c x m x ΔT = thermal energy transferred Substance 1: q 1 = c 1 x m 1 x ΔT 1 Substance 2: q 2 = c 2 x m 2 x ΔT 2 Conservation of energy Energy transfer between substances is equal. Direction of energy transfer is opposite: q 1 = -q 2 (same as q 2 = -q 1 ) c 1 x m 1 x ΔT 1 = -(c 2 x m 2 x ΔT 2 ) Or m 1 c 1 ΔT 1 = -(m 2 c 2 ΔT 2 ) Can be asked to solve for any of the 8 variables: m 1, m 2, c 1, c 2, T i,1, T i,2, T f,1, T f,2 4

For amounts in grams, m = mass in grams, and we must use specific heat capacity = c = s. c = J or cal g- C g- C For amounts in moles, n = moles = number of particles, not mass of particles, and we must use molar heat capacity = c m = C. n 1 C 1 ΔT 1 = -(n 2 C 2 ΔT 2 ) c m = J or cal mol- C mol- C 5

Practice: A 400.0 g piece of iron is heated in a flame and then immersed in 1000.0 g of water at 20.0 C. Afterward, the water and iron are at 32.8 C. What was the initial temperature of the iron? c iron = 0.451 J/g- C. (hint: solve for ΔT) 6

Energy transfer for more physical changes Energy transfer that changes the temperature of a substance (Section 6.3): ΔE = amount of substance x cost to change T by 1 x total change in T. Δq = m x c x ΔT. Energy transfer that changes the phase of a substance (Section 6.4): ΔE = amount of substance x cost to change phase. Δq = m x ΔH. During a phase change, the substance does not change temperature. No ΔT occurs until the phase change is done, e.g., all the ice melts. Example: Ice warmed to 0 C will melt and become water. The energy cost to change water between solid and liquid is 333 J/g (symbolized as ΔH). 10.0 grams of water will require energy transfer of: ΔE = Δq = m x ΔH = 10 g x 333 J/g = 3330 J = 3.33 kj. 7

The ice gains energy from the surrounding air. The ice is considered the system of interest because chemists are most interested in the substance undergoing the change (melting in this case). The air is considered the surroundings, that is, what interacts with the system to exchange energy. We use the definition that gaining energy is a positive change: Δq ice = ice gains energy = + 3.33 kj (+ sign). Losing energy is defined as a negative change, Δq air = air loses energy = - 3.33 kj (- sign). Conservation of Energy For the system, endothermic: gain energy (+ sign) exothermic: lose energy (- sign). Ice undergoes an endothermic process to melt. 8

Practice: Water cooled to 0 C will freeze and become ice. The energy required to change water between solid and liquid is 333 J/g. How much energy must be transferred to freeze 2.00 moles of water? Is the change of state an endothermic or exothermic process? (H 2 O = 18.0152 g/mol) 9

The amount of energy transfer for phase changes ΔH = enthalpy = amount of energy transfer. ΔH fus = enthalpy of fusion = energy transfer to change between liquid and solid = freezing or melting. (333 J/g for H 2 O) ΔH vap = enthalpy of vaporization = energy transfer to change between gas and liquid = boiling or condensing. (2260 J/g for H 2 O) Standardized enthalpy change is based on a chemical equation (mole ratio). For example, H 2 O(l) H 2 O(g) H 2 O(g) H 2 O(l) ΔH = +44.0 kj/mol ΔH = -44.0 kj/mol = standard pressure of 1 bar and T of 25 C. ΔH = standard enthalpy for a specific process 10

Energy transfer for chemical processes (Section 6.6) C 3 H 8 (g) + 5 O 2 (g) 3 CO 2 (g) + 4 H 2 O(l) ΔH = -2220 kj/mol (per mole of ) 1 mol C 3 H 8 to 5 mol O 2 to 3 mol CO 2 to 4 mol H 2 O to 2220 kj produced. Practice applying the mole ratio concept: How many grams of CO 2 are produced when 45.4 g propane are burned? How many kj of energy are produced? (C 3 H 8 = 44.064 g/mol) (CO 2 = 44.010 g/mol) 11

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