R₁ w ww R₂ R3 R Four resistors, R1 = 335 2, R2 = 335 2, R3 = 815 Q2, R4 = 335 Q are connected to a 6.0 V battery as shown below. Calculate the power dissipated through R4 in units of mW. HINTS: 1. There are multiple ways to compute dissipated power. Carefully choose a sensible form based on what is already known (R). This will dictate what other variable you need to solve for. 2. Series resistors (Same Current, Different Voltage), and Parallel Resistors (Same Voltage, Different Current).
R₁ w ww R₂ R3 R Four resistors, R1 = 335 2, R2 = 335 2, R3 = 815 Q2, R4 = 335 Q are connected to a 6.0 V battery as shown below. Calculate the power dissipated through R4 in units of mW. HINTS: 1. There are multiple ways to compute dissipated power. Carefully choose a sensible form based on what is already known (R). This will dictate what other variable you need to solve for. 2. Series resistors (Same Current, Different Voltage), and Parallel Resistors (Same Voltage, Different Current).
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Four resistors, R1 = 335 2, R2 = 335 Q2, R3 = 815 Q2, R4 = 335 Q are connected to a
6.0 V battery as shown below.
Calculate the power dissipated through R4 in units of mW.
HINTS:
1. There are multiple ways to compute dissipated power. Carefully choose a sensible
form based on what is already known (R). This will dictate what other variable you
need to solve for.
2. Series resistors (Same Current, Different Voltage), and Parallel Resistors (Same
Voltage, Different Current).
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