Consider the circuit represented in a) where C1=5,23 nF, R1=136,2 KΩ and  R2=177,8 KΩ and V1=10,9 .

What is the value of Rth, in KΩ, in figure b) for which circuit b) is equivalent to circuit a)

(give your answer using 3 decimals)

Consider the circuit represented in a) where C1=5,23 nF, R1=136,2 KΩ and  R2=177,8 KΩ  and V1=10,9 V

What is the value of Vth, in figure b) for which circuit b) is equivalent to circuit a)

(give your answer using 3 decimals)

Use  L1=2,4 mH, R1=174,9 KΩ, R2=178,2 KΩ and I1=8,7 mA

Considering that the current source has been switched on for a "long time", what is the value of the current, in mA,  flowing through the inductor? 

(give your answer using 3 decimals)

Use L1=4,6 mH, R1=136,2 KΩ, R2=177,8 KΩ and I1=7,3 mA

Considering that the current source has been switched on for a "long time", what is the value of the Energy ( in  nano Joule) stored in the Inductor ?

(give your answer using 3 decimals)

Use  L1=4,6 mH, R1=136,2 KΩ, R2=177,8 KΩ and I1=7,3 mA

Considering that the current source has been switched on for a "long time", what is the value of the current, in mA,  flowing through the inductor? 

(give your answer using 3 decimals)

Consider where C1=3,05 nF, R1=130,4 KΩ, R2=265,9 KΩ and V1=1,7 V

Considering that the voltage source has been switched on for a "long time", what is the value of the Energy ( in nano Joule) stored in the Capacitor ?

(give your answer using 3 decimals)

Consider where C1=5,25 nF, R1=193,7K Ω, R2=244,4 KΩ and V1=6,2 V

Considering that the voltage source has been switched on for a "long time", what is the value of the voltage at the terminals of the capacitor C1? 

(give your answer using 3 decimals)

Consider where C1=5,23 nF, R1=136,2 KΩ, R2=177,8 KΩ and V1=10,9 V

Considering that the voltage source has been switched on for a "long time", what is the value of the Energy ( in nano Joule) stored in the Capacitor ?

(give your answer using 3 decimals)

Consider where C1=5,23 nF, R1=136,2K Ω, R2=177,8 KΩ and V1=10,9 V

Considering that the voltage source has been switched on for a "long time", what is the value of the voltage at the terminals of the capacitor C1? 

(give your answer using 3 decimals)

Consider the aggregate of Inductors represented, where L1=4,6 mH, L2=5,8 mH and L3=8,9 mH

Determine the equivalent Inductance in mH, using 3 decimals