O Parallel paths increase the amount of resistance in the circuit, further limiting the current that can flow. O Each parallel connection adds a path for current to flow, increasing total current through the circuit. O Each parallel connection adds a path for current to flow, increasing the current through each path. O Parallel paths increase total current, which is the same as decreasing total resistance. O Each path will have a share of the total current until there is not enough left, so paths with the greatest resistance may not have any current th them at all. O Each parallel path will have a share of the total current through the circuit that is inversely proportional to that path's resistance, meaning the with least resistance will allow the most current and the path with greatest resistance will allow the least current. O Parallel paths always divide the current equally, reducing the total current through the circuit. O Parallel paths always divide the current proportionally, decreasing the total current through the circuit. 's resistance meaning the path with

Select the three TRUE statements about voltage and resistors in series below.

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Based on your observations in Part 2 (as well as previous labs), select the three TRUE statements about voltage and resistors in series below. O Parallel paths increase the amount of resistance in the circuit, further limiting the current that can flow. O Each parallel connection adds a path for current to flow, increasing total current through the circuit. O Each parallel connection adds a path for current to flow, increasing the current through each path. O Parallel paths increase total current, which is the same as decreasing total resistance. O Each path will have a share of the total current until there is not enough left, so paths with the greatest resistance may not have any current through them at all. O Each parallel path will have a share of the total current through the circuit that is inversely proportional to that path's resistance, meaning the path with least resistance will allow the most current and the path with greatest resistance will allow the least current. O Parallel paths always divide the current equally, reducing the total current through the circuit. O Parallel paths always divide the current proportionally, decreasing the total current through the circuit. O Each parallel path will have a share of the total current through the circuit that is proportional to that path's resistance, meaning the path with least resistance will allow the least current and the path with greatest resistance will allow the most current.