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Point (Typography) to Millimeter Converter

Convert points to millimeters with our free online length converter.

Quick Answer

1 Point (Typography) = 0.352778 millimeters

Formula: Point (Typography) × conversion factor = Millimeter

Use the calculator below for instant, accurate conversions.

Our Accuracy Guarantee

All conversion formulas on UnitsConverter.io have been verified against NIST (National Institute of Standards and Technology) guidelines and international SI standards. Our calculations are accurate to 10 decimal places for standard conversions and use arbitrary precision arithmetic for astronomical units.

Last verified: December 2025Reviewed by: Sam Mathew, Software Engineer

Point (Typography) to Millimeter Calculator

How to Use the Point (Typography) to Millimeter Calculator:

  1. Enter the value you want to convert in the 'From' field (Point (Typography)).
  2. The converted value in Millimeter will appear automatically in the 'To' field.
  3. Use the dropdown menus to select different units within the Length category.
  4. Click the swap button (⇌) to reverse the conversion direction.
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How to Convert Point (Typography) to Millimeter: Step-by-Step Guide

Converting Point (Typography) to Millimeter involves multiplying the value by a specific conversion factor, as shown in the formula below.

Formula:

1 Point (Typography) = 0.352778 millimeters

Example Calculation:

Convert 10 points: 10 × 0.352778 = 3.52778 millimeters

Disclaimer: For Reference Only

These conversion results are provided for informational purposes only. While we strive for accuracy, we make no guarantees regarding the precision of these results, especially for conversions involving extremely large or small numbers which may be subject to the inherent limitations of standard computer floating-point arithmetic.

Not for professional use. Results should be verified before use in any critical application. View our Terms of Service for more information.

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What is a Point (Typography) and a Millimeter?

The Desktop Publishing Point

The modern typographic point is defined as exactly 1/72 of an international inch. This creates the mathematically convenient relationship:

  • 1 point (pt) = 1/72 inch = 0.013888... inches
  • 1 point = 0.352777... millimeters
  • 72 points = 1 inch (exactly)
  • 1 inch = 25.4 mm (by international definition)

This definition, known as the PostScript point or DTP point (Desktop Publishing point), was established by Adobe Systems in the 1980s and has become the universal standard for all modern typography.

The Em Square and Font Height

When we say "12 pt font," we're technically measuring the em square—the metal block that held the physical letter in traditional typesetting. This em square includes:

  • Ascenders: Parts of letters extending above the baseline (like the top of 'h' or 'b')
  • Descenders: Parts extending below the baseline (like the tail of 'g' or 'y')
  • Built-in spacing: Extra vertical space above and below letters

This means 12 pt text doesn't have letters exactly 1/6 inch tall—the actual visible letter height (called x-height) is typically 60-70% of the point size, with the rest being built-in spacing. This spacing prevents lines of text from touching each other.

Points vs. Picas

Typography traditionally pairs the point with the pica:

  • 1 pica = 12 points = 1/6 inch
  • 6 picas = 1 inch
  • 1 pica ≈ 4.233 mm

Professional designers often measure larger typographic elements in picas. For example, a column width might be "20 picas" (3.33 inches) rather than "240 points." The pica provides a more manageable unit for page layout dimensions while maintaining exact mathematical relationships.

Historical Point Systems (Pre-Digital)

Before the DTP point standardization, multiple incompatible point systems existed:

Didot Point (Continental Europe):

  • 1 Didot point ≈ 0.3759 mm
  • Based on the French pied du roi (royal foot)
  • Approximately 67.55 Didot points per inch
  • Still occasionally referenced in European historical printing contexts

American/British Pica Point:

  • 1 pica point ≈ 0.351459 mm
  • 72.27 points per inch (not exactly 72!)
  • Derived from metal type casting standards
  • Also called the "Anglo-American point"

Fournier Point (Early French):

  • Pierre Simon Fournier's original 1737 system
  • Approximately 0.348 mm
  • 72.989 points per French royal inch
  • Largely replaced by Didot system by 1800

The digital revolution eliminated these variations. Today, when anyone uses "point" in typography, they mean the 1/72-inch DTP point unless explicitly stated otherwise.

The millimeter (symbol: mm) is a unit of length in the metric system equal to one-thousandth of a meter (1/1,000 m) or one-tenth of a centimeter (1/10 cm). It is used for precise measurements in engineering, manufacturing, and everyday applications.

Key relationships:

  • 1 millimeter = 0.001 meters (m)
  • 1 millimeter = 0.1 centimeters (cm)
  • 10 millimeters = 1 centimeter
  • 1,000 millimeters = 1 meter
  • 1 millimeter ≈ 0.03937 inches (about 1/25th inch)
  • 25.4 millimeters = 1 inch (exactly)

The prefix "milli-":

  • From Latin "mille" meaning "thousand"
  • SI prefix denoting 10⁻³ (one-thousandth)
  • Also used in: milligram (mg), milliliter (mL), millisecond (ms)

Visual perspective (how big is it?):

  • 1 mm = Thickness of a credit card
  • 2 mm = Thickness of a US dime
  • 5 mm = Thickness of a pencil lead (mechanical)
  • 10 mm = Width of an adult fingernail
  • 25.4 mm = Exactly one inch

Convert between length units: mm converter

Note: The Point (Typography) is part of the imperial/US customary system, primarily used in the US, UK, and Canada for everyday measurements. The Millimeter belongs to the metric (SI) system.

History of the Point (Typography) and Millimeter

Early Typography: The Cicero and Finger-Width (1400s-1700s)

Early European printing used inconsistent measurements based on:

  • The cicero: A unit based on the line width of a specific typeface (Cicero type), varying by region
  • Local inches and feet: Each region had different inch definitions
  • Finger widths and eyeball estimates: Printers adjusted type spacing by hand

This inconsistency made it nearly impossible to share typeface designs or maintain consistency across print shops.

Pierre Simon Fournier: The First Point System (1737)

French typefounder Pierre Simon Fournier le Jeune published "Table des proportions" (1737), introducing the first systematic point system:

  • Based the point on the French royal inch (pouce du roi)
  • Divided the inch into 72 points (a number divisible by many factors: 2, 3, 4, 6, 8, 9, 12)
  • Created 20 standardized font sizes
  • Named sizes after musical terms (e.g., "Petit-Canon," "Gros-Parangon")

Fournier's system brought mathematical precision to typography for the first time, allowing typefounders to create consistent, proportional type families.

François-Ambroise Didot: The Didot Point (1783)

François-Ambroise Didot, another French typefounder, refined Fournier's system by basing measurements on the pied du roi (royal foot):

  • 1 Didot point = 1/72 of 1/12 of the pied du roi ≈ 0.3759 mm
  • Larger than Fournier's point (about 7% bigger)
  • Created the cicero as 12 Didot points
  • Established type size naming still used today (e.g., corps 8, corps 12)

The Didot system became the standard across Continental Europe and remains influential in French and German typography traditions. Some European printing specifications still reference "Didot" even today when discussing historical typography.

American and British Variations (1800s)

The 19th century saw typography spread across the English-speaking world, but without international standards:

American Point System (established c. 1886):

  • Created by the United States Type Founders Association
  • Based on the pica: 1 pica = 0.166 inches
  • Therefore: 1 point = 0.166/12 ≈ 0.013837 inches
  • Result: approximately 72.27 points per inch

British Imperial Point:

  • Similar to American system but based on British imperial inch
  • Also approximately 72.27 points per inch
  • Created incompatibilities when Britain and US used different inch definitions before 1959

This proliferation of standards created international printing chaos. A "12 point" font in France was noticeably different from "12 point" in Britain or America.

Adobe PostScript: The Digital Revolution (1982-1985)

The desktop publishing revolution began when Adobe Systems developed PostScript, a page description language for laser printers:

John Warnock and Charles Geschke (Adobe founders) faced a choice: adopt historical point systems with fractional relationships to inches, or create a new, mathematically clean standard.

They chose simplicity: 1 point = exactly 1/72 inch

This decision meant:

  • Easy calculation: multiply by 72 to convert inches to points
  • Clean pixel mapping on early displays (72 DPI screens made 1 point = 1 pixel)
  • No fractional arithmetic in computer calculations
  • Complete break from historical confusion

Apple LaserWriter and Macintosh (1985)

Apple Computer licensed Adobe PostScript for the Macintosh computer and LaserWriter printer (launched January 1985):

  • First affordable desktop publishing system
  • 72 DPI screen resolution matched PostScript's 72 points/inch
  • Onscreen "What You See Is What You Get" (WYSIWYG): Text appeared on screen at the exact size it would print
  • Revolutionary for designers: no more calculating conversions

The LaserWriter cost $7,000 (expensive but far cheaper than typesetting equipment costing $50,000+), making professional typography accessible to small businesses and independent designers.

Industry Standardization (1985-1995)

The DTP point rapidly became universal:

1987: Adobe releases Adobe Illustrator and Photoshop (1990), both using PostScript points 1987: PageMaker (Aldus, later Adobe) becomes industry-standard layout software 1990s: Microsoft adopts 72 points/inch in Word, PowerPoint, Publisher 1996: CSS (Cascading Style Sheets) defines the pt unit as 1/72 inch for web typography 2000s: All professional design software (InDesign, Quark, CorelDRAW) standardizes on DTP point

By 2000, the historical Didot and pica points had effectively vanished from active use. The DTP point achieved something remarkable: complete global standardization of a measurement unit in just 15 years.

Modern Digital Era (2000-Present)

Today's typography operates in a world of complete point standardization:

  • Print design: All software uses 72 pt/inch
  • Web design: CSS pt units defined as 1/72 inch (though px and em are more common online)
  • Mobile apps: iOS, Android use point-based typography systems
  • E-readers: Kindle, Apple Books use point-based font sizing
  • Office software: Word, Google Docs, Apple Pages all use identical point measurements

The point has become so universal that most designers under 40 have never encountered historical point systems. The DTP point is simply "the point."

  • Metric System Origins: The millimeter was defined as a subunit of the meter when the metric system was established in France during the late 18th century (1790s). As measurement standardization progressed, the need for decimal subdivisions of the meter became clear.

  • Industrial Revolution: The millimeter became essential during the 19th century Industrial Revolution as:

    • Precision machining required fine tolerances
    • Interchangeable parts manufacturing emerged
    • Engineering drawings needed standard units
    • Technical specifications became international

  • Engineering Adoption: By the mid-19th century, engineers and machinists worldwide adopted millimeters as the standard for:

    • Machine tool specifications
    • Tolerance requirements (±0.1 mm common)
    • Technical drawing dimensions
    • Quality control measurements

  • Scientific Standardization: The millimeter became standard in scientific research for:

    • Laboratory equipment calibration
    • Microscopy measurements
    • Specimen documentation
    • Experimental apparatus dimensions

  • SI Formalization: When the International System of Units (SI) was established in 1960, the millimeter was confirmed as an official subdivision of the meter, forming part of the coherent decimal system.

  • Modern Manufacturing: The 20th century saw millimeters become universal in:

    • Automotive engineering specifications
    • Electronics manufacturing (PCB design)
    • Aerospace tolerances
    • Medical device specifications
    • Consumer product dimensions

  • Global Standard: Today, millimeters are the primary unit for precision measurements in virtually every country except the United States (which uses both mm and inches). Even in the US, many technical fields have adopted millimeters as standard.

Common Uses and Applications: points vs millimeters

Explore the typical applications for both Point (Typography) (imperial/US) and Millimeter (metric) to understand their common contexts.

Common Uses for points

1. Document Typography and Word Processing

Body Text Standards:

  • 10-12 pt: Standard body text for business documents, reports, letters
  • 11 pt: Often considered optimal for printed books (balance of readability and page economy)
  • 12 pt: Default in Microsoft Word, Google Docs; universally acceptable for any document
  • 14 pt: Large print books for readers with visual impairments

Heading Hierarchies: Professional documents typically use 3-5 heading levels with systematic point size progression:

  • H1 (Title): 18-24 pt, bold
  • H2 (Major sections): 16-18 pt, bold
  • H3 (Subsections): 14-16 pt, bold
  • H4 (Minor subsections): 12-14 pt, bold or italic
  • Body text: 10-12 pt, regular

This creates clear visual hierarchy while maintaining readability.

2. Professional Graphic Design and Layout

Adobe Creative Suite Standards:

  • InDesign: All text boxes, frames, and measurements in points
  • Illustrator: Artboard rulers can display points; all typography in points
  • Photoshop: Type tool uses points by default

Print Design Specifications:

  • Business cards: Names typically 14-18 pt, contact info 8-10 pt
  • Brochures: Headlines 24-36 pt, body text 9-11 pt
  • Posters: Titles 48-144+ pt depending on viewing distance
  • Magazine layouts: Body 9-10 pt (smaller for dense content), headlines 18-48 pt

Grid Systems: Many designers use point-based grids: 12 pt baseline grids ensure consistent vertical rhythm across pages.

3. Web Typography (CSS)

CSS supports points, though pixels and ems are more common for responsive design:

body {
  font-size: 12pt; /* Equivalent to 16px at 96 DPI */
}

h1 {
  font-size: 24pt; /* Prints at exactly 1/3 inch tall */
}

@media print {
  body { font-size: 11pt; } /* Optimize for printed output */
}

Print Stylesheets: Points are ideal for @media print CSS rules since they translate directly to physical printed size.

Fixed Layouts: PDF generators and print-to-web applications often use point-based layouts for predictable output.

4. Font Design and Development

Em Square Definition:

  • Font designers work within an em square measured in points
  • Traditionally 1000 or 2048 units per em square (OpenType fonts)
  • Defines the bounding box for all characters

Typeface Specifications:

  • X-height: Ratio of lowercase 'x' height to full em square (typically 0.5-0.6)
  • Cap height: Uppercase letter height (typically 0.65-0.75 of em square)
  • Ascenders/descenders: Extensions above/below baseline

All these proportions maintain their relationships regardless of point size, so a typeface designed with good proportions at 12 pt will remain readable at 8 pt or 72 pt.

5. Publishing and Book Design

Book Industry Standards:

  • Fiction novels: 10-12 pt body text, typically Garamond, Baskerville, or Caslon
  • Textbooks: 10-11 pt body, 8-9 pt captions/sidebars
  • Children's books: 14-18 pt for early readers, larger for picture books
  • Academic journals: 10-11 pt Times New Roman or similar serif fonts

Line Spacing (Leading): Traditionally measured in points: 10 pt text with 12 pt leading (written "10/12" and pronounced "ten on twelve") means 10 pt font with 2 pts of extra space between lines.

6. Screen Display and User Interface Design

Operating System Defaults:

  • Windows: 96 DPI screen resolution → 12 pt = 16 pixels
  • macOS (historical): 72 DPI → 12 pt = 12 pixels (now uses points independently of DPI)
  • Retina/HiDPI displays: Points now represent logical pixels rather than physical pixels

Mobile App Guidelines:

  • iOS: Uses point as device-independent unit; 1 pt = 1 logical pixel (2-3 physical pixels on Retina)
  • Android: Uses density-independent pixels (dp), roughly equivalent to points

Accessibility Standards:

  • WCAG 2.1: Recommends minimum 14 pt (18.67 px at 96 DPI) for body text
  • Large print: 18 pt or larger considered "large print" for accessibility

7. Technical Drawing and CAD (Limited Use)

While engineering drawings typically use millimeters or inches, annotation text in CAD software (AutoCAD, SolidWorks) is specified in points:

  • Drawing notes: 10-12 pt
  • Dimension labels: 8-10 pt
  • Title blocks: 14-24 pt

This ensures text remains readable when drawings are printed or exported to PDF.

When to Use millimeters

The millimeter is the standard unit for precise measurements across multiple fields:

Engineering & Machining

Precise measurement requirements for manufacturing, quality control, and technical specifications. Essential for maintaining tolerances in mechanical parts.

Why millimeters in engineering:

  • Decimal system (easy calculations)
  • International standard (ISO)
  • Suitable precision range
  • Compatible with CNC machinery
  • Standard drawing units

Applications:

  • Machine tool specifications
  • Part tolerances (±0.05 mm common)
  • Technical drawing dimensions
  • CAD/CAM software units
  • Quality inspection reports

Convert for technical work: mm to inches | mm to cm

Technical Design & Drafting

Standard measurement unit for architectural, mechanical, and technical drawings worldwide.

Drawing Standards:

  • ISO standards use millimeters
  • Engineering drawings in mm
  • Architecture plans (many countries)
  • Product design specifications
  • Patent drawings (international)

Why mm for drawings:

  • Eliminates fractions (unlike inches)
  • Scales easily (1:10, 1:100, etc.)
  • International communication
  • CAD software standard

Electronics & PCB Design

Measuring component sizes, trace widths, and circuit board dimensions in electronic manufacturing.

PCB Design:

  • Trace width: 0.25-1 mm
  • Component footprints: mm specifications
  • Hole diameters: 0.6-1.2 mm
  • Board thickness: 1.6 mm standard
  • Component spacing: mm grid

Component Specs:

  • All modern ICs specified in mm
  • Resistor/capacitor sizes (mm codes)
  • Connector dimensions
  • Display module sizes

Meteorology & Climate

Measuring rainfall amounts with precision, essential for weather forecasting, agriculture, and climate research.

Rain Gauges:

  • Standard measurement unit worldwide
  • Collected in graduated cylinders (mm scale)
  • Automated weather stations use mm
  • Historical records in mm
  • Climate data standardized

Importance:

  • Drought assessment
  • Flood prediction
  • Agricultural planning
  • Water resource management
  • Climate change tracking

Use our mm converter for scientific calculations.

Manufacturing & Quality Control

Inspecting product dimensions and ensuring parts meet specifications within required tolerances.

QC Measurements:

  • Caliper readings in mm
  • Micrometer measurements
  • Coordinate measuring machines (CMM)
  • Surface profile measurements
  • Dimensional inspection reports

Industries:

  • Automotive parts
  • Aerospace components
  • Medical devices
  • Consumer electronics
  • Precision instruments

Jewelry & Watchmaking

Specifying sizes of gems, watch cases, and jewelry components with precision.

Why jewelers use mm:

  • International gem standard
  • Precise size communication
  • Watch industry standard
  • Setting specifications
  • Customer communication

Measurements:

  • Gemstone dimensions
  • Ring widths and thicknesses
  • Watch case diameters
  • Bracelet link sizes
  • Clasp dimensions

Medical Measurements

Documenting precise measurements in diagnostics, surgery planning, and treatment monitoring.

Clinical Uses:

  • Imaging measurements (CT, MRI, X-ray)
  • Tumor size tracking
  • Surgical planning
  • Needle specifications
  • Medical device dimensions

Why mm in medicine:

  • International standard
  • Appropriate precision
  • Imaging system default
  • Research compatibility
  • Treatment standardization

Additional Unit Information

About Point (Typography) (pt)

How many points are in an inch?

Exactly 72 points (pt) = 1 inch (in) in the modern DTP point system used by all contemporary software. This creates simple conversions:

  • 36 pt = 0.5 inches (half inch)
  • 18 pt = 0.25 inches (quarter inch)
  • 144 pt = 2 inches

Historically, European Didot points (≈67.55 per inch) and American pica points (≈72.27 per inch) used slightly different ratios, but these are obsolete in modern typography.

What is the difference between a point and a pixel?

Points are physical length units (1/72 inch), used for print and when physical size matters. Pixels are device-dependent digital display units whose physical size varies by screen resolution:

  • On 96 DPI screens (Windows/web standard): 1 pt = 1.333 pixels
  • On 72 DPI screens (old Mac standard): 1 pt = 1 pixel
  • On Retina/HiDPI displays: 1 pt = 2-4 physical pixels (but still 1.333 "logical" pixels)

Use points for print design where physical dimensions matter. Use pixels or ems for responsive web design where consistency across devices matters more than absolute size.

What does 12 pt font mean?

12 pt font means the font's em square (the invisible bounding box containing the letters plus spacing) is 12 points (1/6 inch or 4.23 mm) tall. This includes:

  • Ascenders: Parts above the baseline (tops of 'h', 'b', 'd')
  • Descenders: Parts below the baseline (tails of 'g', 'y', 'p')
  • Built-in spacing: Extra vertical room above and below

The actual visible letter height (called x-height for lowercase or cap height for capitals) is typically 60-70% of the point size. So 12 pt text has capital letters around 8-9 points (0.11-0.125 inches) tall, with the remaining space used for descenders and line spacing.

Why are there exactly 72 points in an inch?

Adobe Systems chose 72 because it's highly divisible: 72 = 2³ × 3² = 8 × 9, with factors including 2, 3, 4, 6, 8, 9, 12, 18, 24, 36. This makes common fractions simple:

  • 1/2 inch = 36 pt
  • 1/3 inch = 24 pt
  • 1/4 inch = 18 pt
  • 1/6 inch = 12 pt (standard body text)
  • 1/8 inch = 9 pt

Additionally, early Macintosh screens used 72 DPI (dots per inch), making 1 point = 1 pixel—perfect for WYSIWYG ("what you see is what you get") design. Text appeared onscreen at its exact printed size.

Historically, Pierre Simon Fournier's 1737 system also used 72 points/inch for the same mathematical convenience, though his "inch" was the French royal inch, slightly different from today's international inch.

What's the difference between points and picas?

Points and picas are related typographic units:

  • 1 pica = 12 points
  • 6 picas = 72 points = 1 inch
  • 1 pica = 1/6 inch ≈ 4.233 mm

Points are used for font sizes and small measurements (12 pt text, 2 pt line thickness). Picas are used for larger layout dimensions (column widths, page margins, grid spacing).

Example: A newspaper column might be "12 picas wide" (2 inches / 144 points) with "9 pt body text" and "1 pica margins" (12 points / 1/6 inch).

Both units are part of the same measurement system and convert simply (multiply or divide by 12), making calculations easy while providing appropriately-scaled units for different design elements.

How do I convert points to millimeters?

Formula: millimeters = points × 0.352777... (exact value: 25.4 / 72)

Simplified: millimeters ≈ points × 0.353 (accurate within 0.01%)

Quick conversions:

  • 10 pt = 3.53 mm
  • 12 pt = 4.23 mm
  • 14 pt = 4.94 mm
  • 18 pt = 6.35 mm
  • 24 pt = 8.47 mm
  • 72 pt = 25.4 mm (exactly 1 inch)

Reverse conversion (millimeters to points): points = millimeters × 2.834645... ≈ millimeters × 2.835

Example: A European specification requires "4 mm text." You need: 4 mm × 2.835 ≈ 11.34 pt (round to 11 pt or 11.5 pt).

Is 12 pt the same size in Word and Photoshop?

Yes, exactly. All modern software—Microsoft Word, Adobe Photoshop, InDesign, Illustrator, Google Docs, Apple Pages—uses the same DTP point definition (1/72 inch). 12 pt text will measure exactly 1/6 inch (4.23 mm) when printed from any of these applications.

However, onscreen appearance may differ slightly due to:

  • Font rendering differences: Windows ClearType vs. Mac font smoothing displays the same physical size slightly differently
  • Screen zoom levels: If Word is zoomed to 150%, text appears larger on screen but still prints at correct physical size
  • Different default fonts: Word's default Calibri looks different from Photoshop's default Arial, even at the same point size

But when measured with a ruler on printed output, 12 pt is always exactly 1/6 inch across all applications.

Why doesn't my 12 pt text look 12 points tall on screen?

Your screen zoom level affects apparent size, but the text will still print at correct physical dimensions:

  • 100% zoom: 12 pt text appears at approximately true physical size (depending on monitor size and resolution)
  • 200% zoom: 12 pt text appears twice as large on screen but still prints at 1/6 inch (4.23 mm)
  • 50% zoom: Text appears half-size on screen but prints correctly

Most word processors and design software show the current zoom level in the bottom toolbar. Page view at 100% zoom usually displays content close to actual print size, though this depends on your monitor's physical dimensions and resolution.

To verify true size, print a test page and measure with a ruler: 12 pt text should measure exactly 0.167 inches or 4.23 mm from the top of the tallest letter to the bottom of descenders.

What's the best point size for body text?

10-12 pt is the standard range for printed body text, with specific recommendations depending on context:

Printed Documents:

  • 10 pt: Acceptable minimum; used for dense content (textbooks, references)
  • 11 pt: Comfortable reading size for most book typography
  • 12 pt: Default in Microsoft Word; universally acceptable for any document

Digital/Screen Display:

  • 12-16 pt (or 16-21 pixels at 96 DPI): More comfortable for extended screen reading due to backlit display eye strain
  • 14-18 pt: Recommended for accessibility and readers with vision impairments

Factors affecting choice:

  • Font design: Fonts with larger x-height (like Verdana) are readable at smaller sizes than fonts with small x-height (like Garamond)
  • Line length: Longer lines benefit from larger text (12+ pt)
  • Reader age: Older audiences benefit from 12-14 pt minimum
  • Reading distance: Presentations and signage require much larger text (18+ pt)

When in doubt, 12 pt is the safe, professional standard for nearly all applications.

Can I use points for web design?

Yes, but it's discouraged for screen-only designs. Here's why:

Points in CSS: CSS supports the pt unit (1/72 inch), but it's primarily useful for print stylesheets:

@media print {
  body { font-size: 11pt; } /* Predictable printed size */
  h1 { font-size: 18pt; }
}

Why not for screen:

  • Not responsive: Points are absolute units, don't scale with user preferences or viewport size
  • Accessibility issues: Users who increase browser font size won't affect point-sized text
  • Device variations: Different pixel densities make points appear inconsistent across devices

Better alternatives for screen:

  • Relative units (em, rem): Scale with user preferences
  • Pixels (px): Precise control with media queries
  • Viewport units (vw, vh): Scale with screen size

Best practice: Use pixels or rems for screen, points for print stylesheets.

What is leading and how does it relate to points?

Leading (pronounced "led-ing") is the vertical space between lines of text, measured in points from baseline to baseline. The term comes from traditional typesetting, where thin strips of lead metal were inserted between lines of type.

Standard leading conventions:

  • Solid leading: Leading = font size (10 pt text with 10 pt leading = "10/10")
    • Lines touch; rarely used except for display type
  • Normal leading: Leading = 120% of font size (10 pt text with 12 pt leading = "10/12")
    • Default in most word processors
    • Comfortable reading with adequate space
  • Loose leading: Leading = 140-160% of font size (10 pt text with 14-16 pt leading = "10/14" or "10/16")
    • Airy, easy to read
    • Used for accessibility, children's books

Example: 12 pt text with 14.4 pt leading means:

  • Font size: 12 points (1/6 inch)
  • Space from baseline to baseline: 14.4 points (0.2 inches)
  • Extra space between lines: 2.4 points (0.033 inches)

Too-tight leading makes text hard to read (lines blur together). Too-loose leading creates disconnected "rivers" of white space.

Do fonts actually differ in "12 pt" size?

Yes and no. All 12 pt fonts have the same em square (the bounding box), but they can look very different sizes due to:

X-height variation:

  • High x-height fonts (Verdana, Arial): Lowercase letters occupy 50-60% of em square → appear larger
  • Low x-height fonts (Garamond, Bodoni): Lowercase letters occupy 40-50% of em square → appear smaller

Example:

  • 12 pt Verdana: Lowercase 'x' is about 6-7 points tall (very readable)
  • 12 pt Garamond: Lowercase 'x' is about 5-6 points tall (more elegant but smaller)

Both fonts have the same 12 pt em square, but Verdana allocates more of that space to letter height and less to descenders/ascenders, making it appear larger.

Practical implication: When switching fonts in a document, you may need to adjust point size to maintain similar apparent size. Replacing 12 pt Garamond with 12 pt Verdana might look too large; 11 pt Verdana may better match the original appearance.

This is why typographers often specify fonts and sizes together: "11 pt Garamond" and "10 pt Verdana" can provide similar readability despite different nominal sizes.

About Millimeter (mm)

How many millimeters are in a centimeter?

There are exactly 10 millimeters (mm) in 1 centimeter (cm).

Conversion:

  • 1 cm = 10 mm
  • To convert cm to mm: multiply by 10
  • To convert mm to cm: divide by 10

Examples:

  • 5 cm = 50 mm
  • 2.5 cm = 25 mm
  • 75 mm = 7.5 cm

Memory aid: "Centi-" means 1/100 meter, "milli-" means 1/1,000 meter, so 10 mm = 1 cm.

Use our cm to mm converter for instant conversions.

How many millimeters are in a meter?

There are exactly 1,000 millimeters (mm) in 1 meter (m).

Conversion:

  • 1 m = 1,000 mm
  • To convert m to mm: multiply by 1,000
  • To convert mm to m: divide by 1,000

Examples:

  • 0.5 m = 500 mm
  • 1.5 m = 1,500 mm
  • 2,750 mm = 2.75 m

Remember: "Milli-" means one-thousandth, so it takes 1,000 mm to make 1 meter.

Convert: mm to meters | meters to mm

What does 'milli' mean in millimeter?

The prefix 'milli-' denotes one-thousandth (1/1,000).

Meaning:

  • Comes from Latin "mille" meaning "thousand"
  • In metric system: milli- = 10⁻³ = 1/1,000
  • 1 millimeter = 1/1,000 of a meter = 0.001 m

Other "milli-" units:

  • Milligram (mg) = 1/1,000 gram
  • Milliliter (mL) = 1/1,000 liter
  • Millisecond (ms) = 1/1,000 second
  • Milliamp (mA) = 1/1,000 ampere

Pattern: Always divide by 1,000 to get the base unit.

How thick is 1 millimeter?

1 millimeter is very thin - about the thickness of:

Common objects:

  • Credit card: 0.76 mm (slightly thinner)
  • US dime: 1.35 mm (slightly thicker)
  • 10 sheets of paper: ~1 mm
  • Paperclip wire: ~1 mm diameter
  • Mechanical pencil lead (0.7mm): Slightly thinner

Visual comparison:

  • Thinner than a US penny (1.55 mm)
  • About 1/25th of an inch (0.04 inches)
  • 10 millimeters = 1 cm = width of fingernail

To visualize: Look at the edge of a credit card - that's less than 1 mm.

How many mm in an inch?

1 inch = 25.4 millimeters exactly (by international agreement).

This is a defined conversion (not an approximation):

  • 1 inch ≡ 25.4 mm (exact)
  • 1 mm = 1/25.4 inch ≈ 0.03937 inches

Common conversions:

  • 1 inch = 25.4 mm
  • 2 inches = 50.8 mm
  • 3 inches = 76.2 mm
  • 4 inches = 101.6 mm
  • 12 inches (1 foot) = 304.8 mm

Reverse examples:

  • 10 mm ≈ 0.394 inches
  • 25 mm ≈ 0.984 inches (almost 1 inch)
  • 50 mm ≈ 1.969 inches (almost 2 inches)

Memory trick: 25 mm is almost 1 inch (close enough for quick estimates).

Use our inch to mm converter for precise conversions.

What is 10mm in real life?

10 millimeters = 1 centimeter - about the width of an adult fingernail.

Common 10mm objects:

  • Fingernail width (adult index finger)
  • AA battery diameter: 14 mm (close)
  • Small marble: ~10-15 mm diameter
  • M10 bolt diameter: 10 mm
  • Thick cardboard: ~10 mm

Comparisons:

  • Just under 0.4 inches (0.394 inches exactly)
  • Thickness of 100 sheets of paper
  • About 3/8 inch (slightly larger)

In measurements:

  • Camera/phone thickness: Often 7-10 mm
  • Watch case thickness: Often 10-12 mm
  • Pencil diameter: ~7-8 mm (10mm would be thick)

How do you read a metric ruler?

Metric rulers are divided into centimeters (cm) and millimeters (mm):

Reading steps:

  1. Large numbers: Centimeters (0, 1, 2, 3...)
  2. Long lines: Each centimeter mark
  3. Short lines: Millimeters (10 per cm)
  4. Count: From zero to your measurement point

Example reading:

  • Between 3 and 4 cm, at the 7th small line = 3.7 cm or 37 mm
  • At the 15th cm mark = 15 cm or 150 mm

Tips:

  • 10 small marks = 1 cm
  • Each small mark = 1 mm
  • Halfway between cm marks = 5 mm
  • Read to nearest 0.5 mm for precision

Reporting:

  • Small objects: Use mm (e.g., "15 mm")
  • Larger objects: Use cm (e.g., "15.5 cm")
  • Both are correct, choose clearer one

What tools measure millimeters?

Many tools measure in millimeters:

Hand Tools:

  • Metric ruler: Basic measurement to 1 mm
  • Metric tape measure: Construction/carpentry
  • Caliper: Precision to 0.01 mm (digital/vernier)
  • Micrometer: Very precise, to 0.001 mm
  • Depth gauge: Measuring depths and heights

Digital Tools:

  • Digital caliper: Easy reading, 0.01 mm precision
  • Laser distance meter: Millimeter accuracy
  • Height gauge: Vertical measurements
  • Coordinate measuring machine (CMM): Industrial precision

Specialized Tools:

  • Feeler gauge: Thin strips in mm thicknesses
  • Thread gauge: Checking thread pitch (mm)
  • Bore gauge: Internal diameter measurement
  • Pin gauge: Precision hole measurement

Which to use:

  • Ruler: General purpose (±0.5 mm)
  • Caliper: Precision work (±0.01 mm)
  • Micrometer: Very tight tolerances (±0.001 mm)

Is mm smaller than cm?

Yes, millimeters (mm) are smaller than centimeters (cm).

Relationship:

  • 1 cm = 10 mm
  • 1 mm = 0.1 cm
  • Millimeter is 10 times smaller than centimeter

Scale comparison:

  • Largest: meter (m)
  • Middle: centimeter (cm) = 1/100 m
  • Smallest: millimeter (mm) = 1/1,000 m

Visual:

  • Width of fingernail: 1 cm = 10 mm
  • Thickness of dime: 1.35 mm (can't easily express in cm)

When to use each:

  • Use mm: Small, precise measurements (< 100 mm)
  • Use cm: Medium measurements (1-100 cm)
  • Use m: Large measurements (> 1 meter)

Example:

  • Pencil length: 19 cm or 190 mm (19 cm clearer)
  • Wire diameter: 2 mm (not 0.2 cm - awkward)

How much rain is 1mm?

1 millimeter of rain means 1 mm depth of water would cover a flat surface if none drained away.

What it means:

  • 1 mm rain = 1 liter per square meter of water
  • Light drizzle might produce 1-2 mm/hour
  • Barely enough to wet the ground thoroughly

Rain intensity scale:

  • Trace-1 mm: Very light drizzle
  • 1-2 mm: Light rain
  • 2-5 mm: Light to moderate rain
  • 5-10 mm: Moderate rain
  • 10-20 mm: Heavy rain
  • 20-50 mm: Very heavy rain
  • >50 mm: Extreme rainfall (per hour)

Practical impact:

  • 1 mm: Barely wets surfaces
  • 10 mm: Significant watering
  • 25 mm: Heavy rain event
  • 100 mm: Major storm (in 24 hours)

Measurement:

  • Rain gauge collects water
  • Depth measured in mm
  • Standard worldwide for weather reporting

Conversion Table: Point (Typography) to Millimeter

Point (Typography) (pt)Millimeter (mm)
0.50.176
10.353
1.50.529
20.706
51.764
103.528
258.819
5017.639
10035.278
25088.195
500176.389
1,000352.778

People Also Ask

How do I convert Point (Typography) to Millimeter?

To convert Point (Typography) to Millimeter, enter the value in Point (Typography) in the calculator above. The conversion will happen automatically. Use our free online converter for instant and accurate results. You can also visit our length converter page to convert between other units in this category.

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What is the conversion factor from Point (Typography) to Millimeter?

The conversion factor depends on the specific relationship between Point (Typography) and Millimeter. You can find the exact conversion formula and factor on this page. Our calculator handles all calculations automatically. See the conversion table above for common values.

Can I convert Millimeter back to Point (Typography)?

Yes! You can easily convert Millimeter back to Point (Typography) by using the swap button (⇌) in the calculator above, or by visiting our Millimeter to Point (Typography) converter page. You can also explore other length conversions on our category page.

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What are common uses for Point (Typography) and Millimeter?

Point (Typography) and Millimeter are both standard units used in length measurements. They are commonly used in various applications including engineering, construction, cooking, and scientific research. Browse our length converter for more conversion options.

For more length conversion questions, visit our FAQ page or explore our conversion guides.

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Verified Against Authority Standards

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NIST Guide for the Use of SI

National Institute of Standards and TechnologyOfficial US standards for length measurements

SI Brochure

Bureau International des Poids et MesuresInternational System of Units official documentation

Last verified: December 3, 2025