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2 years ago

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A 120-V rms voltage at 1000 Hz is applied to an inductor, a 2.00-μF capacitor and a 100-Ω resistor, all in series. If the rms va

lue of the current in this circuit is 0.680 A, what is the inductance of the inductor?

2 answers:

Verizon [17]2 years ago

5 0

Answer:

<u>Inductance,L:</u>

"The property of the conductor or the solenoid to generate the electromotive force,emf due to the flow of current,I."

<u>Unit:</u> henry,H as it is equivalent to, kg.m².sec⁻².A⁻².

Explanation:

<u>Data:</u>

Voltage,v=120 v-rms,

Frequency,f=1000 Hz,

Capacitor, C=2.00 μF,

Current,I=0.680 A,

<u>Solution:</u>

We need to calculate the inductance, L of the solenoid inside a circuit,

I=v/z,
Z=√R²+(Lω-1/Cω)²,
putting the values
I=V/√R²+(Lω-1/Cω)²,
0.680=120/√(100)²+(L×2π×1000-1/2×10⁻⁶×2π×1000)²,
L=35.8×10⁻³H, or<u> L=35.8 mH.⇒</u>Answer

natima [27]2 years ago

4 0

Answer:

The inductance of the inductor is 35.8 mH

Explanation:

Given that,

Voltage = 120-V

Frequency = 1000 Hz

Capacitor $C= 2.00\mu F$

Current = 0.680 A

We need to calculate the inductance of the inductor

Using formula of current

$I = \dfrac{V}{Z}$

$Z=\sqrt{R^2+(L\omega-\dfrac{1}{C\omega})^2}$

Put the value of Z into the formula

$I=\dfrac{V}{\sqrt{R^2+(L\omega-\dfrac{1}{C\omega})^2}}$

Put the value into the formula

$0.680=\dfrac{120}{\sqrt{(100)^2+(L\times2\pi\times1000-\dfrac{1}{2\times10^{-6}\times2\pi\times1000})^2}}$

$L=35.8\ mH$

Hence, The inductance of the inductor is 35.8 mH

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Answer:

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At the end of the school day, at exactly 2:30 pm, a group of students run out of the school building and reach the edge of the s

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1 year ago

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this is an example of area expansivity.

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