At a given frequency w, the circuits in the figures (a) and (b) will have the same impedance between the terminals a b. (Figure 1) Figure R₁ !! • (a) R₂ (b) < 1 of 1 C₂2₂ ▼ Find C₂ Express your answer in terms of the variables w, R₁ and C₁. C₁₂ C₂ = 1+²R₁³C₁² Submit Previous Answers ✓ Correct Part C ✓ Find the value of resistance that when connected in parallel will give the same impedance at 48 krad/s as that of a 1.2 k2 resistor connected in series with a capacitance of 45 nF Express your answer with the appropriate units. R₂ = 1380 2 Submit Previous Answers ✓ Correct Correct answer is shown. Your answer 1.378 k(=1378 ) was either rounded differently or used a different number of significant figures than required for this part. Part D Find the value of capacitance that when connected in parallel will give the same impedance at 48 krad/s as that of a 1.2 k2 resistor connected in series with a capacitance of 45 nF Express your answer with the appropriate units. μ Ω % C₂= 8.03 6 Å uF F ? 7 Submit Previous Answers Request Answer

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At a given frequency w, the circuits in the figures (a) and (b) will have the same impedance between the terminals a,b. (Figure 1) Figure R₁ a T b (a) www R₂3 a b 1 of 1 Find C₂. Express your answer in terms of the variables w, R₁ and C₁. C₂ = Submit C₁ 1+w²R₁²C₁² Part C Correct Find the value of resistance that when connected in parallel will give the same impedance at 48 krad/s as that of a 1.2 k resistor connected in series with a capacitance of 45 nF Express your answer with the appropriate units. R₂ = 1380 N Submit Previous Answers Part D Correct Correct answer is shown. Your answer 1.378 kN(=1378) was either rounded differently or used a different number of significant figures than required for this part. Previous Answers μ Find the value of capacitance that when connected in parallel will give the same impedance at 48 krad/s as that of a 1.2 kn resistor connected in series with a capacitance of 45 nF Express your answer with the appropriate units. C₂ = 8.03 μA Ω % 0 μF X w ? Submit Previous Answers Request Answer Pearson