6. Answer the following questions regarding the Lever Rule. [ a. Describe the purpose of the Lever Rule and write the equation. b. Using the lever rule for 52 wt% Zn-48 wt% Cu, cite the phases present and mass fractions at the following temperatures: 1000°C, 800°C, 500°C, and 300°C. Refer to the Cu-Zn diagram from problem 3 or use the book diagram on p. 326. 7. Returning to the Zn-Cu phase diagram, using the composition 52 wt% Zn-48 wt% Cu, draw schematics of the microstructures if you were to undergo a slow cooling process. Draw representations for 950°C, 860°C, 800°C, and 600°C. Make sure to properly label each phase and determine their approximate compositions. 70-30 brass 60-40 brass 1083 C 1000 .902°C Liquid ww. ww. www. 834°C 800 700°C ఇ Solid a ! or (Ču) 8 698C 600 3. 424PC 400 419°C Solid or (Zn) 200 20 40 60 100 Cu wt % Zn Zn Temperature, T (°C) 80

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6. Answer the following questions regarding the Lever Rule. [ a. Describe the purpose of the Lever Rule and write the equation. b. Using the lever rule for 52 wt% Zn-48 wt% Cu, cite the phases present and mass fractions at the following temperatures: 1000°C, 800°C, 500°C, and 300°C. Refer to the Cu-Zn diagram from problem 3 or use the book diagram on p. 326. 7. Returning to the Zn-Cu phase diagram, using the composition 52 wt% Zn-48 wt% Cu, draw schematics of the microstructures if you were to undergo a slow cooling process. Draw representations for 950°C, 860°C, 800°C, and 600°C. Make sure to properly label each phase and determine their approximate compositions.

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70-30 brass 60-40 brass 1083 C 1000 .902°C Liquid ww. ww. www. 834°C 800 700°C ఇ Solid a ! or (Ču) 8 698C 600 3. 424PC 400 419°C Solid or (Zn) 200 20 40 60 100 Cu wt % Zn Zn Temperature, T (°C) 80