Charge in a RC Circuit: Difference between revisions
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By Isabella Hoskins | By Isabella Hoskins | ||
This page gives a quantitative analysis of how to obtain the charge in a series RC Circuit with time. | This page gives a quantitative analysis of how to obtain the charge of a capacitor in a series RC Circuit with time. | ||
==The Main Idea== | ==The Main Idea== | ||
Revision as of 20:49, 1 December 2015
By Isabella Hoskins
This page gives a quantitative analysis of how to obtain the charge of a capacitor in a series RC Circuit with time.
The Main Idea
Below is a RC circuit in series, which contains an ideal battery with a emf, a light bulb (which has a resistance R), an uncharged capacitor with a capacitance C, and a switch. When the switch is closed, electrons flow from the negative end of the battery to the capacitor, where they accumulate on one of the plates of the capacitor, thus causing the plate to acquire a negative charge. This charge causes an electrostatic field that pushes the electrons on the second plate away from the second plate, which not only results a positive charge on the second plate, but also allows the current to move throughout the rest of the circuit. As a result, the initial brightness of the bulb would be the same brightness of the bulb in a circuit without a capacitor.
However, as capacitor becomes charge (i.e. more electrons pile up on the negative plate), an opposing electric field from the negative plate of the capacitor slows the current and the bulb begins to dim. Once the capacitor is fully charge, current stops flowing in the circuit and the bulb no longer shines.
A Mathematical Model
What are the mathematical equations that allow us to model this topic. For example [math]\displaystyle{ {\frac{d\vec{p}}{dt}}_{system} = \vec{F}_{net} }[/math] where p is the momentum of the system and F is the net force from the surroundings.
A Computational Model
How do we visualize or predict using this topic. Consider embedding some vpython code here Teach hands-on with GlowScript
Examples
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