Max Power transper bov (+) Sr Tor RL 212 52 100 محر 2) Fond R₂ that results on max power transfer. b) Fond the maximum power delivered to RL.

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### Max Power Transfer in Electrical Circuits **Diagram Overview:** The diagram illustrates a circuit used to study the concept of maximum power transfer. It features the following components: - A voltage source represented as "60 V" with an internal series resistor labeled "50 Ω." - A resistive network containing four resistors: two resistors of "5 Ω" each, one resistor of "12.5 Ω," and one resistor of "10 Ω." - A load resistor represented as "R\(_L\)." **Tasks:** 1. **Find R\(_L\) that results in max power transfer.** - To achieve maximum power transfer to the load resistor (R\(_L\)), R\(_L\) should be equal to the Thevenin equivalent resistance seen from the load's perspective. 2. **Find the maximum power delivered to R\(_L\).** - Calculate the power using the formula \( P = \frac{V^2}{4R} \), where \( V \) is the voltage across the Thevenin equivalent resistance and \( R \) is the resistance value of R\(_L\) when matched for maximum power transfer.