Exam 6: Series-Parallel Circuits

$\text { Figure } 6 ^ { \prime } 2$ -If all resistors equal 4.7 $k \Omega$ and VS equals 20 V in Figure 6-2 , what is the value of I_R3 ?

No problems could occur if a 10 V source and a 20 V sourceW ere connected in parallel.

$\text { Figure 6'5 }$ -Refer to Figure 6-5. If all of the resistors of this circuit are 5 $\mathrm { k } \Omega$ and V_S1 and V_S2 are 10 V but opposing polarities, what would be the current flow through R₂ ?

$\text { Figure } 6 ^ { \prime } 2$ -If R₄ shorts in Figure 6-2, V_R5 _________

$\text { Figure } 6 ^ { \prime } 2$ -If all of the resistors in Figure 6-2 are 4.7 $\mathrm { k } \Omega$ , what is the value of R_T?

$\text { Figure } 6 ^ { \prime } 2$ -If every resistor in Figure 6-2 equals 2.2 $\mathrm { k } \Omega$ , what is the value of R_T ?

$\text { Figure } 6 ' 3$ -If V_S=22 V in Figure 6-3, what is the is the value of V_DB ?

One Ohm's law formula $\mathrm { P } T = \mathrm { P } _ { 1 } + \mathrm { P } _ { 2 } + \text { etc. }$ can be used to solve for total power in:

$\text { Figure } 6 \text { '1 }$ -If R₁=4.7 $\mathrm { k } \Omega$ , R₂=3.3 $\mathrm { k } \Omega$ , R₃=1 $\mathrm { k } \Omega$ and V_S=50 V in Figure 6-1,I_T equals_____

Maximum power is achievedW hen the load resistance is approximately two times the source resistance.

$\text { Figure } 6 \text { '1 }$ -If V_S=20 V, R₁=10 $\mathrm { k } \Omega$ , R₂=50 $\mathrm { k } \Omega$ and R3=15 $\mathrm { k } \Omega$ in Figure 6-1, P_R2 equals________