The electric current, I (amps), passing through an electronic component varies directly with the applied voltage, V (volts), according to the relationship V=IR

Question

The electric current, I (amps), passing through an electronic component varies directly with the applied voltage, V (volts), according to the relationship  V=IR
  where R, is the resistance measured in Ohms  (Ω)
 .

Wong is trying to find out the resistance, R, of an unknown component. He labels the resistance of the unknown component as  xΩ
 .

The resistance, R, of a circuit containing these unknown components is  (5x+20)Ω
 . A 90-volt potential difference across the circuit produces a current of 2.25 amps.

What is the resistance of the unknown component? Explain how you arrived at your answer.

GPT-4o mini · Answer

To find the resistance $ x $ of the unknown component, we can use Ohm's Law, which states: $$ V = IR $$ Where: - $ V $ is the voltage (90 volts), - $ I $ is the current (2.25 amps), - $ R $ is the total resistance of the circuit, which is given as $ (5x + 20) \, \Omega $. From the relationship, we can rearrange the equation to find $ R $: $$ R = \frac{V}{I} $$ Now, substituting the values for $ V $ and $ I $: $$ R = \frac{90}{2.25} $$ Calculating this gives: $$ R = 40 \, \Omega $$ Now, we set this equal to the expression for the total resistance: $$ 5x + 20 = 40 $$ Next, we'll solve for $ x $: $$ 5x + 20 = 40 $$ Subtracting 20 from both sides: $$ 5x = 40 - 20 $$ $$ 5x = 20 $$ Dividing both sides by 5: $$ x = \frac{20}{5} $$ $$ x = 4 $$ Thus, the resistance of the unknown component is: $$ \boxed{4 \, \Omega} $$ ### Summary of the Steps: 1. Use Ohm's Law to find the total resistance $ R $ using the current and voltage. 2. Set the found resistance equal to the expression for resistance given in the problem and solve for $ x $.