---
title: "All-or-Nothing Principle — AP Psychology Definition & Guide"
description: "The all-or-nothing principle says a neuron fires fully or not at all once it hits threshold. Learn how it works and how AP Psych tests it in Unit 1."
canonical: "https://fiveable.me/ap-psych-revised/key-terms/all-or-nothing-principle"
type: "key-term"
subject: "AP Psychology"
unit: "Unit 1"
---

# All-or-Nothing Principle — AP Psychology Definition & Guide

## Definition

The all-or-nothing principle states that a neuron either fires a full action potential or does not fire at all. Once the stimulus reaches the neuron's threshold (around -55mV), the action potential always fires at the same strength, no matter how strong the stimulus is.

## What It Is

The all-or-nothing principle is the rule that a neuron's firing has no in-between setting. Either the incoming signal pushes the neuron past its **[threshold](/ap-psych-revised/unit-1/3-the-neuron-and-neural-firing/study-guide/AVvPhAH234j4u83J "fv-autolink")** (about -55mV) and it fires a full **action potential**, or it doesn't reach threshold and nothing happens. There's no "half-fire" or "weak fire." Think of it like a gun trigger: pull it past the point of no return and the bullet goes the same speed every time, whether you pulled gently or yanked hard.

This sits inside the orderly process of neural transmission described in CED 1.3.B.1, alongside [resting potential](/ap-psych-revised/key-terms/resting-potential "fv-autolink"), depolarization, the refractory period, reuptake, and threshold. A neuron starts at its **resting potential** (around -70mV). When enough stimulation arrives, it depolarizes to threshold, fires at full strength, and then enters a refractory period before it can fire again. The key takeaway: stimulus intensity doesn't change how *big* one action potential is. So how does your [brain](/ap-psych-revised/unit-1/2-overview-of-the-nervous-system/study-guide/4EFLv8T9ARX14r9M "fv-autolink") encode a strong stimulus versus a weak one? By how *often* neurons fire and how *many* fire, not by firing harder.

## Why It Matters

This is core [Unit 1](/ap-psych-revised/unit-1 "fv-autolink") (Biological Bases of Behavior), topic 1.3 The Neuron and Neural Firing. It directly supports learning objective [AP Psych Revised](/ap-psych-revised "fv-autolink") 1.3.B ("Explain how the basic process of neural transmission is related to behavior and mental processes"), and essential knowledge 1.3.B.1 names the all-or-nothing principle by name. Understanding it is the foundation for everything that follows about behavior having a biological basis. If you can't explain how a single neuron fires, you can't explain how neurotransmitters, drugs, or reflexes shape behavior. It's the building block the rest of the unit stacks on.

## Connections

### Threshold and Depolarization (Unit 1)

The all-or-nothing principle only makes sense once you know threshold. Threshold (about -55mV) is the trigger point. Below it, nothing. At or above it, full action potential. They're two halves of the same event.

### Reflex Arc and Interneurons (Unit 1)

A [reflex arc](/ap-psych-revised/key-terms/reflex-arc "fv-autolink") fires through sensory neurons, interneurons, and motor neurons in the spinal cord. Each of those neurons obeys the all-or-nothing rule, which is why a reflex response is fast and consistent rather than gradual.

### Stimulants, Depressants, and Psychoactive Drugs (Unit 1)

Drugs change behavior by making [neurons](/ap-psych-revised/key-terms/neurons "fv-autolink") more or less likely to reach threshold. Stimulants like caffeine push neurons toward firing; depressants like alcohol pull them away. They don't make a single action potential bigger, they change how often the all-or-nothing event happens.

### Serotonin and Neurotransmitters (Unit 1)

Neurotransmitters like [serotonin](/ap-psych-revised/key-terms/serotonin "fv-autolink") determine whether a neuron reaches threshold in the first place. Excitatory signals push toward firing; inhibitory signals push away. The all-or-nothing principle is what happens once those signals add up.

## On the AP Exam

Multiple-choice questions love to test whether you understand that stimulus strength does NOT change action potential size. A classic stem describes a neuron at -70mV that gets stimulated to -55mV with a sudden influx of positive ions and a rapid swing to positive charge, then asks you to identify what's happening (that's threshold being reached and the action potential firing). Another common trap: a neuron stimulated to a value that still doesn't reach threshold, where no action potential occurs. That illustrates the all-or-nothing principle, the neuron didn't fire because it never hit threshold. You may also see questions about firing *rate* (like calculating mean firing frequency from a list of Hz values), which reinforces that intensity is coded by how often neurons fire, not how hard. No released FRQ has used this term verbatim, but it underpins any free-response prompt asking you to explain neural transmission or how drugs affect behavior.

## all-or-nothing principle vs threshold

Threshold is the trigger point (about -55mV) that a neuron must reach to fire. The all-or-nothing principle is the rule about what happens once threshold is reached: the neuron fires fully, or if it never hits threshold, not at all. Threshold is the line; all-or-nothing is what's on either side of it.

## Key Takeaways

- A neuron either fires a complete action potential or it doesn't fire at all, with no partial firing.
- Once a neuron reaches threshold (around -55mV), the action potential fires at the same strength regardless of how strong the stimulus was.
- Stimulus intensity is coded by how OFTEN neurons fire and how MANY fire, not by the size of a single action potential.
- The all-or-nothing principle is one piece of neural transmission listed in CED 1.3.B.1, alongside threshold, depolarization, resting potential, and the refractory period.
- It supports learning objective AP Psych Revised 1.3.B about how neural transmission relates to behavior and mental processes.

## FAQs

### What is the all-or-nothing principle in AP Psychology?

It's the rule that a neuron either fires a full action potential or doesn't fire at all. Once the stimulus reaches threshold (about -55mV), the neuron fires at full strength every time, no matter how strong the stimulus is. It's part of Unit 1, topic 1.3.

### Does a stronger stimulus make a bigger action potential?

No. This is the most common misconception. A stronger stimulus does NOT create a larger action potential. Every action potential is the same size. A stronger stimulus just makes neurons fire more frequently and recruits more neurons to fire.

### How is the all-or-nothing principle different from threshold?

Threshold is the specific charge level (around -55mV) a neuron must reach to fire. The all-or-nothing principle is what happens once threshold is reached: the neuron fires completely, and if threshold isn't reached, it doesn't fire at all. Threshold is the trigger point; all-or-nothing is the result.

### How do stimulants and depressants relate to the all-or-nothing principle?

Stimulants like caffeine and cocaine make neurons more likely to reach threshold and fire, increasing neural activity. Depressants like alcohol make neurons less likely to reach threshold, decreasing activity. Neither changes the size of an individual action potential, they change how often firing happens.

### Is the all-or-nothing principle on the AP Psych exam?

Yes. It's explicitly named in essential knowledge 1.3.B.1, so it's fair game. Expect multiple-choice questions describing a neuron reaching or failing to reach threshold and asking you to identify whether an action potential fires.

## Related Study Guides

- [1.3 The Neuron and Neural Firing](/ap-psych-revised/unit-1/3-the-neuron-and-neural-firing/study-guide/AVvPhAH234j4u83J)

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