+ % t=0 R₁ www R₂ C₂ The value of v(t) for t> 0 is + v(t) The circuit in the given figure is the electrical analog of body functions used in medical schools to study convulsions. The analog is as follows: C₁ = Volume of fluid in a drug C2 = Volume of blood stream in a specified region R₁ = Resistance in the passage of the drug from the input to the blood stream R2 = Resistance of the excretion mechanism, such as kidney, etc. VoInitial concentration of the drug dosage ✓(t) = Percentage of the drug in the blood stream Find (t) for t> 0 given that C₁ = 0.5 μF, C₂ = 5 μF, R₁ = 5 MQ, R₂ = 2.6 MQ, and vo= 60 u(t) V. -2.9t/25) v.

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+ % t=0 C₁ R₁ ww R₂ S The value of (t) for t> 0 is C₂ v(t) The circuit in the given figure is the electrical analog of body functions used in medical schools to study convulsions. The analog is as follows: C₁ = Volume of fluid in a drug C2 = Volume of blood stream in a specified region R₁ = Resistance in the passage of the drug from the input to the blood stream R2 = Resistance of the excretion mechanism, such as kidney, etc. Vo = Initial concentration of the drug dosage ✓(t) = Percentage of the drug in the blood stream Find (t) for t> 0 given that C₁ = 0.5 μF, C₂ = 5 μF, R₁ = 5 MQ, R₂ = 2.6 MQ, and vo = 60 u(t) V. |(1-e-2.9t/25) V.