Chapter 2 - Fundamentals of Electric Circuits - Part 1 Circuits - Homework Problems - Page 53: 2.27

$ Resistance (R_{T}) $ $=$ $3.2$ $ohms$

The total power for each branch of parallel 75-Watts and 15-Watts is determined by adding these two power values. $P_{t_{1}}$ $=$ $P_{1}$ + $P_{2}$ $P_{t_{1}}$ $=$ $75$ $Watts$ + $15$ $Watts$ $P_{t_{1}}$ $=$ $90$ $Watts$ $P_{t_{2}}$ $=$ $P_{3}$ + $P_{4}$ $P_{t_{2}}$ $=$ $75$ $Watts$ + $15$ $Watts$ $P_{t_{2}}$ $=$ $90$ $Watts$ Therefore, the total power of the circuit is: $P_{T}$ $=$ $P_{t_{1}}$ + $P_{t_{2}}$ $P_{T}$ $=$ $90$ $Watts$ + $90$ $Watts$ $P_{T}$ $=$ $180$ $Watts$ Using the equation below: we can now determine the total resistance seen by the battery: $ Power (P_{T}) $ $=$ $\frac{Voltage(V)^{2}}{Resistance (R_{T})}$ $ Resistance (R_{T}) $ $=$ $\frac{Voltage(V)^{2}}{Power (P_{T})}$ $ Resistance (R_{T})) $ $=$ $\frac{24^{2}}{180}$ $ Resistance (R_{T}) $ $=$ $3.2$ $ohms$