Activity 8: capacitor discharge, Background, Before you begin – PASCO Xplorer-GLX Users’ Guide User Manual

X p l o r e r G L X U s e r s ’ G u i d e

131

A c t i v i ty 8 : C a pa c i t o r D i s c h a r g e

Background

In the circuit pictured above, the rate at which the voltage, V, decreases is directly
proportional to the voltage. Mathematically, this can be written:

(eq. 1)

where dV/dt is the rate of voltage change, and

τ is a constant greater than 0

known as the Capacitive Time Constant. The negative sign indicates that the
voltage decreases over time.

Equation 1 can be rewritten:

(eq. 2)

where V is the voltage at any given time, t; and V

0

is the voltage at t = 0.

In this experiment, you will create a circuit like the one in the diagram. The GLX
will measure and graph voltage over time as the capacitor discharges. From the
collected data, you will determine the capacitive time constant,

τ, of your circuit.

Before You Begin

Start a new experiment on the GLX.

1.

Press

to go to the Home Screen.

2.

Use the arrow keys to highlight the Data Files icon and press

to open

the Data Files screen.

3.

Press

to open the Files menu and press

to select New File.

Equipment

1

Quantity

Xplorer GLX

1

Voltage Probe

1

Capacitor (between 0.015

and 1 F)

1

Resistor (between 100 and

1000

Ω

)

1

Battery and battery holder

(“AA,” “C,” “D,” or similar)

1

Alligator Clip Leads

4

1

Use separate electronic components or

the PASCO EM-8678 Charge/Discharge
board, which includes a capacitor, resis-
tors, and battery holder.

C

R

V

dV

dt

-------

τV

–

=

ln

V

V

0

------

τt

–

=

F4

1

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