Answer:
[tex]\rm 100\; V[/tex].
Explanation:
The battery here is connected to three resistors. Because these resistors are connected in series:
- the voltage supplied by the battery is the sum of the voltage across each of the three resistors.
- the current across the three resistors is the same.
The voltmeter on the right reads [tex]20\; \rm V[/tex]. Since this voltmeter is connected in parallel with [tex]R_2[/tex], it measures the voltage across
The voltage across [tex]R_1[/tex] and [tex]R_3[/tex] can be found with Ohm's Law. Note that the ammeter on the lower-right corner reads [tex]2\; \rm A[/tex]. Because this circuit is connected in series, the current through each of its three resistors in would all be
- [tex]R_1 = 15\; \Omega[/tex]. [tex]I_1 = 2\; \rm A[/tex]. By Ohm's Law, [tex]V_1 = I_1 \cdot R_1 = 2\; \rm A \times 15 \; \Omega = 30\; \rm V[/tex].
- [tex]R_3 = 25\; \Omega[/tex], [tex]I_3 = 2\; \rm A[/tex]. By Ohm's Law, [tex]V_3 = I_3\cdot R_3 = 2\; \rm A \times 25\; \rm \Omega = 50\; \rm V[/tex].
Since the three resistors are connected in series:
[tex]\begin{aligned}& V(\text{from battery})\\ &= V(\text{across circuit}) \\ &= V_1 + V_2 + V_3 \\&= \rm 30\; V + 20 \; V + 50 \; V \\&= 100\; \rm V\end{aligned}[/tex].
