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This question already has an answer here:

I have electrical engineering this semester and there is this thing bugging me this whole time, how to see which resistors (or whichever component) are connected in which way?

I can do it by following where current divaricates, but it gets a little tricky when I have circuits like this below.

Do you have any tips?

(We don't know if all resistors are the same value or not !)

enter image description here

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marked as duplicate by Dave Tweed Dec 18 '17 at 19:27

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  • \$\begingroup\$ Come on Tyler thats just ridiculus that shematic is for kindergarten kids when compared to my shematic \$\endgroup\$ – Human Dec 18 '17 at 17:36
  • \$\begingroup\$ @Human Why do you think there is a difference? Obviously it's not identical, but the methods are exactly the same. \$\endgroup\$ – pipe Dec 18 '17 at 19:06
  • \$\begingroup\$ It's trivial in this example, because everything to the right of the leftmost resistor is simply shorted out. \$\endgroup\$ – Dave Tweed Dec 18 '17 at 19:28
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Practice. The answer is practice.

The more familiar you become with electrical circuits, the easier it becomes to recognize if components are connected in series, parallel, as a ladder network, etc just by looking at the circuit. There is no rule of thumb to tell you this, it requires your instinct, which is best developed over time. Don't stress over it too much, just take it as it comes and do your best.

Personally, I usually start from one side and work my way in the opposite direction, simplifying as I go. It may take two or three iterations to make it as simple as possible, so patience is also key.

To start with the circuit you posted, I suggest first looking at the ground node (coming off the negative side of the battery) and make it into just a straight line. Then draw every resistor connected to the ground node vertically, and connect the corresponding end to this straight line. Finally connect the top sides of each resistor wherever it needs to go (trace the connections in your original schematic). At first glance I also see a couple of resistors that are simply short-circuited, so they can be replaced with just a wire.

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    \$\begingroup\$ Yup. This is why you've had to do those annoying repetitive homework assignments throughout your entire educational career. There's no way about it. \$\endgroup\$ – kjgregory Dec 18 '17 at 17:44

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