Power dissipated by a resistor in combined citcuit

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SUMMARY

The power dissipated by resistor R2 in a combined circuit with a voltage of 120 volts and resistances R1=1 Ohm, R2=3.33 Ohms, R3=2 Ohms, and R4=3 Ohms is calculated to be 244.95 watts. The equivalent resistance (Req) of the circuit is determined to be 5.25 Ohms, leading to a total current (I) of 22.86A. The voltage drops across R1 and R4 are calculated to be 22.86 volts and 68.58 volts, respectively, leaving a voltage of 28.56 volts across R2 and R3, which are in parallel. The calculation emphasizes the importance of avoiding rounding errors in intermediate results to maintain accuracy.

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Electrical engineers, physics students, and anyone involved in circuit design or analysis will benefit from this discussion, particularly those focusing on power dissipation and resistor configurations.

UTK_James
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Find the power dissipated by R2 given that V a-b=120 volts, R1=1, R2=3.33, R3=2, and R4=3

I've worked this problem, just want to confirm I worked it correctly.

A---------R1-----------*-------------------
| |
R2 R3
| |
B---------R4----------*--------------------

Req=5.25 Ohms, therefore total current, I, =V/Req 120V/2.25 Ohms I=22.86A
We then find the voltage drop over R1, since it sees all the current in the circuit
V=IR V=22.86A*1 Ohm v=22.86
we also know that R4 will see all current in the circuit, so we calculate its voltage drop as well.
v=68.58
the total of these two drops subtracted from the total equals 28.56.
Since R2 and R3 are in parallel, they see equal current, meaning the remaining voltage is dissipated over these two resistors.

using the power formula, P=V^2/R, we can find the power dissipated by R2 by 28.56^2/3.33 P=244.95 watts.

Is this correct, or have I missed something somewhere
 
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Just a note, the R2 is inbetween the two stars and R3 is at the end of the circuit. SOrry for the confusion
 
Looks fine. Note that you should avoid rounding intermediate results except for presentation purposes; keep extra digits in intermediate values that will be used in further calculations to keep rounding errors from creeping into significant digits in final results.

If you want to post ascii diagrams, consider placing their text between [ code ] [ /code ] tags. That way spacing and indents will be preserved.
 
Looks ok but..

Since R2 and R3 are in parallel, they see equal current voltage, meaning the remaining voltage is dissipated over these two resistors.
 

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