---
title: "Conservation of Charge — AP Physics 2 Definition & Guide"
description: "Conservation of charge means an isolated system's net charge never changes. It powers Kirchhoff's junction rule and explains why series capacitors share equal charge."
canonical: "https://fiveable.me/ap-physics-2-revised/key-terms/conservation-of-charge"
type: "key-term"
subject: "AP Physics 2"
unit: "Unit 10"
---

# Conservation of Charge — AP Physics 2 Definition & Guide

## Definition

Conservation of charge is the principle that the net charge of an isolated system stays constant; charge can only move around or transfer between a system and its surroundings, never appear or vanish. In AP Physics 2 it underlies charging processes (10.2), Kirchhoff's junction rule (11.7), and series capacitors (11.8).

## What It Is

Conservation of charge says [charge](/ap-physics-2-revised/unit-10/1-electric-charge-and-electric-force/study-guide/E6OYkOGeroCXwgw1 "fv-autolink") is never created or destroyed. The net charge of an [isolated system](/ap-physics-2-revised/key-terms/isolated-system "fv-autolink") stays the same forever. If a system's net charge does change, that's not a violation; it means charge was transferred between the system and its surroundings, like electrons jumping from a rubbed balloon to your hair.

This one principle shows up in two very different-looking places on the exam. In electrostatics (Topic 10.2), it governs charging by friction and contact, and it explains why induced charge separation can polarize a neutral object without changing its net charge of zero. The charges just rearrange. In circuits (Topics 11.7 and 11.8), it becomes [Kirchhoff's junction rule](/ap-physics-2-revised/unit-11/7-kirchhoffs-junction-rule/study-guide/MhZEtEmvXABB5nTQ "fv-autolink"). Charge flowing into a junction can't pile up or disappear, so the current in must equal the current out. Same law, two costumes.

## Why It Matters

Conservation of charge is one of the big conservation laws [AP Physics 2](/ap-physics-2-revised "fv-autolink") is built around, right alongside energy and momentum. Learning objective 10.2.A asks you to describe a system's behavior using conservation of charge directly. Then it comes back in [Unit 11](/ap-physics-2-revised/unit-11 "fv-autolink"), where 11.7.A has you apply Kirchhoff's junction rule, which the CED explicitly calls a consequence of conservation of electric charge. It even hides inside 11.8.A and 11.8.B, because the reason capacitors in series all carry the same charge is that the wire segment between them is isolated, so its net charge can't change. If you can spot conservation of charge underneath all three topics, you can answer questions that look brand new with one familiar idea.

## Connections

### Kirchhoff's Junction Rule (Unit 11)

The junction rule is conservation of charge applied to a single point in a [circuit](/ap-physics-2-revised/unit-11/2-simple-circuits/study-guide/LROjr9EJ6hjfPDMC "fv-autolink"). Charge can't accumulate at or leak out of a junction, so the sum of currents in equals the sum of currents out. The CED states this connection outright, and it's a favorite MCQ answer choice.

### Equivalent capacitance of series capacitors (Unit 11)

The wire connecting two series [capacitors](/ap-physics-2-revised/unit-10/6-capacitors/study-guide/BalONZFM1MOIxU84 "fv-autolink") is an isolated island of charge. Its net charge starts at zero and must stay zero, which forces every capacitor in the series chain to hold the exact same charge Q. That equal-Q fact is why series capacitances add as inverses.

### [Induced charge separation (Unit 10)](/ap-physics-2-revised/key-terms/induced-charge-separation)

Bring a charged rod near a neutral conductor and charges shift around inside it, but the object's net charge stays zero. Conservation of charge is what lets you say a polarized object can still be neutral overall. The [electroscope](/ap-physics-2-revised/key-terms/electroscope "fv-autolink") demo runs entirely on this idea.

### RC circuits and the time constant (Unit 11)

While a capacitor charges, the current delivering charge to one plate equals the current pulling charge off the other plate. Conservation of charge guarantees the plates stay equal and opposite at every instant during the transient response, not just at steady state.

## On the AP Exam

You won't usually see a question that just asks you to recite the law. Instead, conservation of charge is the justification behind an answer. Multiple-choice questions give you a junction with currents like 2.0 A, 3.0 A, and 1.5 A flowing in and ask what principle is violated if only 4.0 A flows out (answer: conservation of charge via the junction rule). Series capacitor questions ask which quantity is the same for all capacitors during charging, and the answer is charge, because the connecting wires are isolated. On FRQs, expect to use it as the named physical principle in a paragraph-length justification, for example explaining why a 2 μF, 4 μF, and 8 μF capacitor in series all end up with identical charge, or why charging by friction transfers electrons rather than creating them. The move the exam rewards is naming the principle and then tracing where the charge actually went.

## conservation of charge vs Conservation of energy (Kirchhoff's loop rule)

Both conservation laws live inside Kirchhoff's rules, and it's easy to swap them. Conservation of charge gives you the junction rule (currents in equal currents out at a point). Conservation of energy gives you the loop rule (potential differences around a closed loop sum to zero). Quick check for MCQs that ask which principle justifies which rule: junctions are about charge, loops are about energy.

## Key Takeaways

- The net charge of an isolated system never changes; any change in net charge means charge transferred to or from the surroundings.
- Kirchhoff's junction rule (ΣI_in = ΣI_out) is conservation of charge applied to a circuit junction, since charge can't pile up at a point.
- Capacitors in series all carry the same charge because the wire between them is an isolated segment whose net charge must stay zero.
- Induced charge separation polarizes a neutral object without changing its net charge, so an object can be neutral and polarized at the same time.
- Charging by friction or contact moves electrons from one object to another; one object's gain exactly equals the other's loss.

## FAQs

### What is conservation of charge in AP Physics 2?

It's the principle that the net charge of an isolated system stays constant. Charge can transfer between objects or redistribute within a system, but it's never created or destroyed. It anchors Topic 10.2 (charging) and reappears in Unit 11 as Kirchhoff's junction rule.

### Does rubbing a balloon on your hair create charge?

No. Friction transfers electrons from one object to the other, so the balloon gains exactly the negative charge your hair loses. The combined system's net charge is unchanged, which is conservation of charge in action.

### How is conservation of charge different from Kirchhoff's junction rule?

The junction rule is a specific application of conservation of charge to circuits. Because charge can't accumulate at a junction, the total current entering must equal the total current leaving (ΣI_in = ΣI_out). The general law covers electrostatics too, like charging by friction and induced charge separation.

### Why do capacitors in series have the same charge?

The conductor connecting two series capacitors is electrically isolated, and its net charge starts at zero. Conservation of charge means it stays zero, so every capacitor in the chain ends up with the same charge Q. With a 12 V battery and 2 μF, 4 μF, and 8 μF capacitors in series, all three hold identical charge despite different capacitances.

### Can a neutral object obey conservation of charge and still attract a charged rod?

Yes. A nearby charged rod causes induced charge separation, pulling opposite charges closer and pushing like charges away within the neutral object. Its net charge stays zero the whole time, but the uneven distribution produces a net attractive force.

## Related Study Guides

- [10.2 The Process of Charging](/ap-physics-2-revised/unit-10/2-the-process-of-charging/study-guide/fQJqVklZDhbQdyBa)

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