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Two resistors, $R_{1}$ and $R_{2},$ are connected in series. (a) If $R_{1}=$ 2.00$\Omega$ and $R_{2}=4.00 \Omega$ , calculate the single resistance equivalent to the series combination. (b) Repeat the calculation for a parallel combination of $R_{1}$ and $R_{2} .$

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in the first part of this question, we are going to kill lead they, Clint Resistance When the resisters are combined in Siri's Lord Disick Willard Resistances for serious combination we can right ar e equals two are one plus our two. Let's call it equating one now setting that will use into this equation we will get ar e equals to 2.0 plus 4.0 This will give us ar e equals to 6.0 Zittel. So this is the answer. The first part of this question In second part of this question, we have to repeat the calculations for federal combination. We are going to kill. Let Ari for this combination for battle combination we can, right whenever ari equals to one hour are one plus one by our two. So let's go to the question, too. Now, setting the values into this equation we will get one by r e equals to one by 2.0 plus one by 4.0 So this is a grand too r equals to 1.330 so I know the question