6.1.1 Capacitance

Cards (43)

What is capacitance defined as?
Ratio of charge to voltage
Match the electrical quantity with its definition:
Resistance ↔️ Ratio of potential difference to current
Inductance ↔️ Ratio of magnetic flux to current
Capacitance ↔️ Ratio of charge to potential difference
A smaller distance between the plates increases capacitance. 
True
The permittivity of a dielectric material is directly proportional to capacitance. 
True
Capacitance is defined as the ratio of charge stored to the potential difference across the capacitor. 
True
Capacitance depends on the area of the plates, the distance between them, and the dielectric material used. 
True
Using a dielectric material with higher permittivity increases capacitance.
True
A capacitor with a larger area and smaller plate separation will have higher capacitance. 
True
A 100 μF capacitor charged to 12V stores 7.2 mJ of energy. 
True
The capacitance in the energy storage formula is measured in Farads
Match the electrical component with its energy stored formula:
Capacitor ↔️ $\frac{1}{2} CV^{2}$
Inductor ↔️ $\frac{1}{2} LI^{2}$
Resistor ↔️ None
Capacitance is the ratio of charge stored to potential difference
What is the formula for capacitance involving permittivity, area, and distance?
$C =$ $\frac{\varepsilon A}{d}$
Capacitance is the ratio of charge to potential difference.
True
The capacitance of a capacitor decreases as the distance between its plates increases
The formula for capacitance is C = \frac{Q}{V}
Order the factors affecting capacitance from most to least significant.
1️⃣ Area of the plates
2️⃣ Distance between the plates
3️⃣ Dielectric material
What is the formula for calculating capacitance using area, distance, and permittivity?
C = \frac{\varepsilon A}{d}</latex>
What is the formula for capacitance in terms of charge and potential difference?
$C =$ $\frac{Q}{V}$
What is the ratio of potential difference to current known as?
Resistance
How does increasing the area of the plates affect capacitance?
Increases capacitance
What is the formula for capacitance in terms of permittivity, area, and distance?
C = \frac{\varepsilon A}{d}</latex>
What is the formula for the energy stored in a capacitor?
$E =$ $\frac{1}{2} CV^{2}$
What is the energy stored formula for an inductor?
$\frac{1}{2} LI^{2}$
The voltage across a capacitor is measured in Volts. 
True
A resistor stores energy in the form of heat.
False
Arrange the factors affecting capacitance in order of their effect on capacitance:
1️⃣ Area of Plates (Increases Capacitance)
2️⃣ Dielectric Material (Increases Capacitance if permittivity is higher)
3️⃣ Distance Between Plates (Decreases Capacitance)
The permittivity of the dielectric material is denoted by the symbol $\varepsilon$
Match the electrical quantity with its ratio:
Capacitance ↔️ Charge to Potential Difference
Resistance ↔️ Potential Difference to Current
Inductance ↔️ Magnetic Flux to Current
The unit of capacitance is the Farad (F). 
True
A material with higher permittivity increases capacitance
A capacitor with a plate area of 0.1 m², a separation of 0.01 m, and a permittivity of $8.85 \times 10^{ - 12}$ F/m has a capacitance of $8.85 \times 10^{ - 11}$
The unit of capacitance is the Farad
The ratio of charge to potential difference is called capacitance
How does decreasing the distance between the plates affect capacitance?
Increases capacitance
In the formula for capacitance, $d$ represents the distance
The energy stored in a capacitor is measured in Joules
What is the unit of energy in the formula for energy stored in a capacitor?
Joules
Calculate the energy stored in a 100 μF capacitor charged to 12V.
$7.2 \times 10^{ - 3} \text{ J}$
What does the energy stored in a capacitor represent?
Work done to charge it