1. For the series circuit, based on your results, write an equation relating the voltage from the power source to the voltage across each component resistor.
2. For the parallel circuit, based on your results, write an equation relating the current flow from the power source to the currents flow in each component resistor.                                                                               

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Purpose: Color Code Ohmmeter unit R₁ R₂ Rs unit R₁ R₂ Rr Table 1: Resistance Determinations R₁ x 10% 1.048 10.0210 V volt 6.79 3.03 10.0 V SR₁ x 10% volt 9.40 9.40 1.000 10.1000 Table 2: Resistors in Series I Amp 0.592 x 10-3 0.592 x 10-3 0.592 x 10-3 Table 3: Resistors in Parallel I Amp 0.840 x 10-3 1.730 x 10-3 2.620 x 10-3 R₂ x 10³ 5.270 10.105 R 52 1.147 x 10* 5.118 x 10³ 1.689 x 10+ R 52 1.119 x 10* 5.434 x 10³ 3.591 x 10* SR₂ x 10³ 4.700 +0.470 P 4.097 x 10-3 1.794 x 10-3 5.920 x 10-³ P W 7.896 x 10-³ 1.626 x 10-² 2.465 x 10-² 1. 8R₁(Color Code) = Brown, black, orange, silver 10,000(10%) 5R₁(Ohmmeter) = silver - (10 %) = 10,000 x 10 100±1000 2. Calculate R: V 6.79volt R₁T 0.592 x 10-³ Amp R₂ V V R₁ === 3.03 volt 0.592 x 10 Amp 10. Ovolt T0.592 x 10 Amp - 1.147 x 10 Calculate P: 3. Calculate R: R₁ = P = VxI= (6.79volt) (0.592 x 10-³ Amp) = 4.097 x 10-³W R₂ = P =V x1 = (3.03 volt) (0.592 x 10-³Amp) = 1.794 x 10-³W Rs = P = VxI= (10.0 volt)(0.592 x 10-³ Amp) = 5.920 x 10-³W V 9.40volt R₁-0.840 x 10-³ Amp 9.40volt R₂1.730 x 10 Amp V 5.118 x 10³ V 9.41 volt Rp T 2.620 x 10-³ Amp = 1.689 x 10* = 1.119x10*0 = 5.434 x 10³0 = 3.591 x 10* Calculate P: R₁ = P = VxI=(9.40volt)(0.840 x 10-3 Amp) = 7.896 x 10-³W R₂ =P = VxI=(9.40volt)(1.730 x 10-3 Amp) = 1.626 x 10-²W R₂ =P =VxI= (9.41volt) (2.620 x 10-³ Amp) = 2.465 x 10-²W