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Physics: Capacitors and Electric Quantities
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Letter and unit for electric charge
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Letter and unit for electric charge
Electric charge is represented by \(q\text{ or }Q\) and measured in coulombs (C).
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Terms in this set (19)
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Letter and unit for electric charge
Electric charge is represented by \(q\text{ or }Q\) and measured in coulombs (C).
Letter and unit for electric potential
Electric potential is represented by \(V\) and measured in volts (V).
Letter and unit for electric potential energy
Electric potential energy is represented by \(U\) and measured in joules (J).
Letter and unit for energy density
Energy density is represented by \(u\) and measured in joules per cubic meter (J/m³).
Letter and unit for capacitance
Capacitance is represented by \(C\) and measured in farads (F).
Definition equation for capacitance
Capacitance is defined by the equation \(Q=VC\), relating charge, voltage, and capacitance.
Equivalent capacitance for capacitors in series
For capacitors in series: \(\frac{1}{C_{eq}}=\frac{1}{C_1}+\frac{1}{C_2}+\frac{1}{C_3}+\dots\).
Charge on capacitors in series
Charge is the same on all capacitors in series: \(Q_{tot}=Q_1=Q_2=Q_3=\dots\).
Voltage across capacitors in series
Total voltage is the sum of voltages: \(V_{tot}=V_1+V_2+V_3+\dots\).
Equivalent capacitance for capacitors in parallel
For capacitors in parallel: \(C_{eq}=C_1+C_2+C_3+\dots\).
Charge on capacitors in parallel
Total charge is the sum of charges: \(Q_{tot}=Q_1+Q_2+Q_3+\dots\).
Voltage across capacitors in parallel
Voltage is the same across all capacitors in parallel: \(V_{tot}=V_1=V_2=V_3=\dots\).
Capacitance of a parallel-plate capacitor
Capacitance is given by \(C=\kappa \varepsilon_0 \frac{A}{d}\), where
κ
is dielectric constant,
ε₀
permittivity,
A
area, and
d
plate separation.
Electric field inside a parallel-plate capacitor
Electric field is \(E=\frac{\Delta V}{d}\), voltage difference divided by plate separation.
Meaning of dielectric strength
Dielectric strength is the maximum electric field before breakdown occurs, causing current flow and capacitor discharge.
Dielectric strength of air
The dielectric strength of air is \(E_{Max,air}=3.0 \times 10^{6} \text{ V/m}\).
Formulas for electric potential energy stored in a capacitor
Energy stored can be calculated by \(U_C=\frac{1}{2}CV^2\), \(U_C=\frac{Q^2}{2C}\), or \(U_C=\frac{1}{2}QV\).
General definition of energy density
Energy density is defined as \(u=\frac{U_C}{\text{Vol}}\), energy per unit volume.
Energy density for an electric field
Energy density in an electric field is \(u=\frac{1}{2}\kappa \varepsilon_0 E^2\).