Exam 4: Series Circuits

Total power dissipated in a series circuit equals source voltage multiplied by current.

$\text { Figure } 4 < 1$ -If R₂ shorts in Figure 4-1, the total circuit power ________.

$\text { Figure } 4 < 1$ -Calculate VT in Figure 4-1 if VR1=16 V, R₁=10 $\mathrm { k } \Omega$ , R₂=10 $\mathrm { k } \Omega$ and R₃=15 $\mathrm { k } \Omega$

If five equal resistors dissipate a total of 10W in a series circuit, how much power does each resistor dissipate?

Calculating current for a series resistor circuit can be accomplishedW ith a measured voltage across one of the resistors divided by that resistorʹs value.

If 4.7 $\mathrm { k } \Omega$ , 2.2 $\mathrm { k } \Omega$ and 1.2 $\mathrm { k } \Omega$ resistors are wired in series, the total resistance is 8.7 $\mathrm { k } \Omega \text {. }$

$\text { Figure } 4 < 1$ -Calculate V_R2 and V_R3 in Figure 4-1 if V_R1=16V, R₁=10 $\mathrm { k } \Omega$ , R₂=10 $\mathrm { k } \Omega$ and R₃=15 $\mathrm { k } \Omega$

If three 2.2 $\mathrm { k } \Omega$ resistors are connected in series across a 50 V source, P_T equals

$\text { Figure } 4 < 1$ -VR₁=16 V, R₅=10 $\mathrm { k } \Omega$ R₂=10 $\mathrm { k } \Omega$ and R₃=15 $\mathrm { k } \Omega$ in Figure 4-1 . If R₂ opens, then RT is

$\text { Figure } 4 < 1$ -If R2 opens in Figure 4-1, the total power dissipated ________.

-1.2 V,+5 V and +6 V batteries are connected in series. The total voltage is

If a 4.7 $\mathrm { k } \Omega$ , 5.6 $\mathrm { k } \Omega$ and 10 $\mathrm { k } \Omega$ resistor are in series, which resistor drops the most voltage?

$\text { Figure } 4 < 1$ -Calculate PT in Figure 4-1 if V_T = 100 V and all three resistors are each 47 kΩ

What is the total supply voltage if 16V and 12V sources are wired in series opposing?

Three resistors are connected in series across a 60 V source. If V_R1=19 V and V_R2=14.3 V , then what is the voltage drop across R₃ ?

Three 2 V cells in seriesW ith one in series-opposingW ould yield 2 V.

Based upon electron current flow, the polarity on the side of the resistor Where current enters is ________. The polarity on the side of the resistor Where current exits is ________.

What is the easiest, most practical measurement performed during troubleshooting?

$\text { Figure } 4 < 1$ -How much voltage is dropped across R₂ and R₃ in Figure 4-1 if $\mathrm { R } 1 = 4.7 \mathrm { k } \Omega , \mathrm { VR } 1 = 10 \mathrm {~V} , \mathrm { R } _ { 2 } = 4.7$ $\mathrm { k } \Omega$ and R₃=4.7 $\mathrm { k } \Omega$ ?

The voltage drop across any resistor or combination of resistors in a series circuit equals: