11.6 RC Circuits

Cards (70)

What does the term "RC circuit" refer to?
Resistor-capacitor circuit
Discharging a capacitor in an RC circuit involves the release of stored charge back into the circuit. 
True
Match the process with its effect on voltage and current in an RC circuit:
Charging ↔️ Voltage increases, current decreases
Discharging ↔️ Voltage decreases, current decreases
During capacitor charging, the voltage increases exponentially towards the source voltage.
During charging, the current decreases from Vs/R to 0.
True
RC circuits are important for timing circuits, power supplies, and signal filtering.
What is the primary role of a resistor in an RC circuit?
Impedes current flow
What determines the rate of charging and discharging in an RC circuit?
Time constant (τ)
Arrange the key parameters of the charging process in an RC circuit:
1️⃣ Voltage increases from 0 to Vs
2️⃣ Current decreases from Vs/R to 0
3️⃣ Time constant (τ) = RC
After one time constant, the capacitor voltage reaches 63.2% of the source voltage in a charging RC circuit 
True
After one time constant, the voltage across a discharging capacitor drops to approximately 36.8% of its initial value
True
How does the capacitor voltage change during charging in an RC circuit?
Increases from 0 to Vs
What is the primary function of a resistor in an RC circuit?
Controls current flow
After one time constant, the capacitor voltage reaches 63.2% of the source voltage during charging 
True
After one time constant (τ = RC), what percentage of its initial value does the capacitor voltage drop to during discharging?
36.8%
During the charging process, what happens to the capacitor voltage?
Increases to Vs
A low time constant (τ) in an RC circuit results in slower charging and discharging speeds.
False
Calculate the capacitor voltage at t = 0.5 seconds for a 500 μF capacitor charging through a 2000 Ω resistor from a 10V source.
3.93 volts
Resistors in RC circuits control current flow and dissipate electrical energy as heat
A capacitor in an RC circuit stores electrical energy
The time constant in an RC circuit is the product of resistance and capacitance
The time constant in an RC circuit is defined as RC
The capacitor voltage during charging is described by the equation Vc(t) = Vs(1 - e-t/RC)
What happens to the voltage across a capacitor during discharge?
Decreases exponentially
Charging a capacitor in an RC circuit involves the buildup of charge on its plates. 
True
The equations for charging and discharging describe how voltage and current change over time
What are the key applications of RC circuits?
Timing, power, filtering
Arrange the charging and discharging processes in terms of their voltage change:
1️⃣ Charging: Increases from 0 to Vs
2️⃣ Discharging: Decreases from Vs to 0
What is the current flow during capacitor charging in an RC circuit?
Decreases from Vs/R to 0
The time constant (τ) in an RC circuit is the product of resistance (R) and capacitance (C). 
True
How does a resistor manage energy in an RC circuit?
Dissipates energy as heat
The time constant (τ) in an RC circuit is the product of resistance (R) and capacitance
When a capacitor discharges through a resistor, the voltage across the capacitor decreases exponentially
Match the function of each component in an RC circuit:
Resistor ↔️ Controls current flow
Capacitor ↔️ Stores electrical energy
When a voltage source is removed from an RC circuit, the capacitor discharges exponentially 
True
What is the primary function of a capacitor in an RC circuit?
Stores electrical energy
Match the process with its corresponding change in voltage:
Charging ↔️ Increases from 0 to Vs
Discharging ↔️ Decreases from Vs to 0
The time constant (τ) in an RC circuit is equal to the product of resistance (R) and capacitance (C). 
True
What does a larger time constant (τ) indicate about the charging or discharging process in an RC circuit?
Slower charging/discharging
The equation for capacitor voltage during discharging is Vc(t) = V0e^(-t/RC)