Part B: Resistance vs Cross-Sectional Area (A): Task: In this part, resistance of four brass wires with different diameters thus cross-sectional areas are to be measured. (I = 1A) Table 2. Resistance of conductor for different cross-sectional areas |D (cm) |A(cm²) Length (cm) | 1 (A) | Voltage (mV) | Resistance (2) | 0,1271 0,1016 0,0127 0,00811 0,0812 0,00519 0,0508 0,00203 24 24 24 24 13,6 21,2 33,7 89,1 Brass IA (A Question: How did the resistance of the conductor change with respect to cross-sectional area? Did the change occur as you have expected? Your Answer: Task (Plot): Resistance vs Cross sectional area (A) graph. (Independent variable A on x-axis, dependent variable R on y-axis)

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In this part of the experiment, you will investigate the physical parameters that have an effect on the resistance of a conductor. The conductors to be used are given as in the following, Brass (0.00203 cm") Brass (0.00519 cm³) Brass (0.00811 cm³) Brass (0.0127 cm) Copper (0.00811 cm³) Aluminum (0.00811 cm²) Stainless Steel (0.00811 cm³) Nichrome (0.00811 cm") Part B: Resistance vs Cross-Sectional Area (A): Task: In this part, resistance of four brass wires with different diameters thus cross-sectional areas are to be measured. (I = 1A) Table 2. Resistance of conductor for different cross-sectional areas D (cm) |A(cm²) | Length (cm)| 1 (A) | Voitage (mV) | Resistance (N) 0,1271 0,0127 24 13,6 21,2 33,7 89,1 | 0,1016 0,00811 24 Brass 0,0812 0,00519 24 IA 0,0508 0,00203 24 IA Question: How did the resistance of the conductor change with respect to cross-sectional area? Did the change occur as you have expected? Your Answer: Task (Plot): Resistance vs Cross sectional area (A) graph. (Independent variable A on x-axis, | dependent variable R on y-axis)