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Calculate the effective resistance of a 5 Ω resistor and a 7 Ω resistor when they are connected in parallel. - Leaving Cert Physics - Question (i) - 2018

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Calculate the effective resistance of a 5 Ω resistor and a 7 Ω resistor when they are connected in parallel.

Worked Solution & Example Answer:Calculate the effective resistance of a 5 Ω resistor and a 7 Ω resistor when they are connected in parallel. - Leaving Cert Physics - Question (i) - 2018

Step 1

Step 1: Use the formula for resistors in parallel

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Answer

The effective resistance for resistors connected in parallel can be calculated using the formula:

1RT=1R1+1R2\frac{1}{R_T} = \frac{1}{R_1} + \frac{1}{R_2}

where:

  • RTR_T is the total resistance,
  • R1=5ΩR_1 = 5 \Omega, and
  • R2=7ΩR_2 = 7 \Omega.

Step 2

Step 2: Substitute the values into the formula

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Answer

Substituting the resistor values into the formula gives:

1RT=15+17\frac{1}{R_T} = \frac{1}{5} + \frac{1}{7}

Step 3

Step 3: Calculate the total resistance

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Answer

First, find a common denominator to add the fractions. The common denominator for 5 and 7 is 35:

1RT=735+535=1235\frac{1}{R_T} = \frac{7}{35} + \frac{5}{35} = \frac{12}{35}

Now, taking the reciprocal to find RTR_T:

RT=35122.92ΩR_T = \frac{35}{12} \approx 2.92 \Omega

Thus, the effective resistance is approximately 2.9Ω2.9 \Omega.

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