Can you find the equivalent resistance in this circuit?

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SUMMARY

The equivalent resistance of the given circuit is 8.5 Ω. The solution involves first combining the 19 Ω and 5 Ω resistors in series to obtain 24 Ω, which is then placed in parallel with the 8 Ω resistor. The calculations proceed by applying the formula for resistors in parallel, resulting in an intermediate resistance of 6 Ω. This value is then added to the 15 Ω resistor in series, leading to a final equivalent resistance of 8.5 Ω after further calculations with the remaining resistors.

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kelsow
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Homework Statement


4tu9f5.jpg

I have to find the equivalent resistance of that series and parallel circuit.

Homework Equations


for resistors in parallel: 1 / R = 1 / R1 + 1 / R2 + 1 / R3 +...
for resistors in series: R = R1 + R2 + R3 + ...

The Attempt at a Solution


The good answer has been given, its 8,5 Ω
I tried but i can't have that answer.
What I made:
15Ω + 9 Ω=24
and 19Ω+5Ω=24
1/ (1/24+1/8) + 1/ (1/24) + 2 +0,2
I know, it is wrong but i can't do the right thing.
 
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kelsow said:
What I made:
15Ω + 9 Ω=24
Those resistors are not simply in series, so this step is incorrect.
and 19Ω+5Ω=24
This is good.

Start by finding instances where resistors are simply in series or parallel (the 19Ω and 5Ω resistors are a good place to begin) and replace them by their equivalent resistances. Then reanalyze the circuit, looking for more opportunities to combine resistances. Keep doing this until you've found the equivalent resistance of the entire pile.
 
okay. thanks. (I made a mistake in the drawing of the circuit, its 2 instead of 20).
So i should start with 19Ω and 5Ω. I add up those 2 resistors 19Ω+5Ω=24
then i place 24Ω in parallel with 8Ω.
1/ (1/24+1/8)=6
i add 6 with 15 cause its in series 6+15=21 and i do the same thing
1/(1/21+1/9)=6,3
6,3+2+0,2=8,5Ω
YES, thank you. i didnt know where to start and i mixed up everything.
 

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