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Capacitors and Resistors

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12 Terms

1
<p>Capacitance (C) - series, capacitor</p>

Capacitance (C) - series, capacitor

((1/C1)+(1/C2)+...)^-1 inverse

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2
<p>Charge (Q) - series, capacitor</p>

Charge (Q) - series, capacitor

Q1=Q2 equals

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3
<p>Electric Potential Difference (V) - series, capacitor</p>

Electric Potential Difference (V) - series, capacitor

V1+V2+... add

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4
<p>Capacitance (C) - parallel, capacitor</p>

Capacitance (C) - parallel, capacitor

C1+C2+... add

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5
<p>Charge (Q) - parallel, capacitor</p>

Charge (Q) - parallel, capacitor

Q1+Q2+... add

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6
<p>Potential Difference (V) - parallel, capacitor</p>

Potential Difference (V) - parallel, capacitor

V1=V2 equals

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7
<p>Electric Potential Difference (V) - series, resistor</p>

Electric Potential Difference (V) - series, resistor

V1+V2+... add

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8
<p>Current (I) - series, resistor</p>

Current (I) - series, resistor

I1=I2 equals

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9
<p>Resistance (R) - series, resistor</p>

Resistance (R) - series, resistor

R1+R2+... add

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10
<p>Electric Potential Difference (V) - parallel, resistor</p>

Electric Potential Difference (V) - parallel, resistor

V1=V2 equals

New cards
11
<p>Current (I) - parallel, resistor</p>

Current (I) - parallel, resistor

I1+I2+... add

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12
<p>Resistance (R) - parallel, resistor</p>

Resistance (R) - parallel, resistor

((1/R1)+(1/R2)+...)^-1 inverse

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