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Yojana to Millimeter Converter

Convert yojanas to millimeters with our free online length converter.

Quick Answer

1 Yojana = 13500000 millimeters

Formula: Yojana × conversion factor = Millimeter

Use the calculator below for instant, accurate conversions.

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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: February 2026Reviewed by: Sam Mathew, Software Engineer

Yojana to Millimeter Calculator

How to Use the Yojana to Millimeter Calculator:

  1. Enter the value you want to convert in the 'From' field (Yojana).
  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 Yojana to Millimeter: Step-by-Step Guide

Converting Yojana to Millimeter involves multiplying the value by a specific conversion factor, as shown in the formula below.

Formula:

1 Yojana = 1.3500e+7 millimeters

Example Calculation:

Convert 10 yojanas: 10 × 1.3500e+7 = 1.3500e+8 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 Yojana and a Millimeter?

The Yojana (Sanskrit: योजन) is an ancient Indian unit of distance, primarily found in historical texts from South Asia. Its exact length is highly debated and likely varied significantly across different time periods, geographical regions, and textual sources.

There is no single, universally accepted conversion to modern units. Common scholarly estimates place its value anywhere between:

  • 8 to 15 kilometers (km)
  • Approximately 5 to 9 miles (mi)

Some ancient texts define the Yojana in terms of smaller units, such as:

  • 4 krosas (or gorutas)
  • 8,000 dhanus ('bows')
  • 32,000 hastas ('cubits')

However, the lengths of these base units are also subject to historical variation and interpretation, contributing to the uncertainty surrounding the Yojana.

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 Yojana 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 Yojana and Millimeter

  • Ancient Origins: The term "Yojana" appears in some of the oldest Indian literature, including the Vedas, the Puranas, and the great epics like the Ramayana and Mahabharata. It was a standard measure for long distances.
  • Buddhist Texts: Buddhist scriptures, such as the Pali Canon, frequently use the Yojana to describe geographical distances, the dimensions of mythical realms, or the extent of a Buddha's journey. Different Buddhist traditions sometimes offer varying interpretations of its length.
  • Arthashastra: Kautilya's Arthashastra (an ancient treatise on statecraft, c. 3rd century BCE) provides definitions relating the Yojana to smaller units, suggesting a more standardized system for administrative purposes at that time, though its precise value remains debated.
  • Lack of Standardization: Unlike modern systems, ancient Indian measurements were not centrally standardized across the vast subcontinent and over long periods. Local customs, royal decrees, and the specific context (e.g., measuring road distance vs. cosmological scale) could all influence the intended length.
  • Interpretations: Modern scholars have attempted to calculate the Yojana based on various methods:
    • Analyzing travel times mentioned in texts.
    • Comparing described geographical distances with known locations.
    • Relating it to astronomical measurements found in cosmological texts.
    • Working backward from definitions based on smaller, slightly better-understood units like the hasta (cubit) or angula (finger width). These methods often yield conflicting results.
  • Obsolescence: With the advent of standardized systems like the Imperial system during British rule and later the widespread adoption of the metric system, the Yojana fell out of practical use for measurement.

  • 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: yojanas vs millimeters

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

Common Uses for yojanas

The Yojana is primarily encountered today in:

  • Historical Studies: Understanding ancient Indian geography, trade routes, military campaigns, and administrative divisions described in texts.
  • Religious and Literary Studies: Interpreting distances mentioned in Hindu, Buddhist, and Jain scriptures, epics, and classical literature. This includes cosmological descriptions, mythological journeys, and the size of ancient kingdoms or structures.
  • Cultural Context: It remains a part of the cultural lexicon in discussions related to ancient Indian heritage and texts.

It is not used for any practical, scientific, or commercial measurements in the modern era.

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 Yojana (yojana)

What is the accepted value of a Yojana in modern units?

There is no single universally accepted value. Scholarly estimates vary widely, most commonly falling between 8 kilometers (approx. 5 miles) and 15 kilometers (approx. 9 miles). Some interpretations suggest values as low as 5 km or as high as 20 km. The specific text, time period, and region must be considered.

Why is the length of the Yojana so uncertain?

Several factors contribute to the uncertainty:

  1. Lack of Central Standardization: Ancient India had diverse local measurement practices.
  2. Evolution Over Time: The definition likely changed over centuries.
  3. Variable Base Units: The smaller units (like krosa or hasta) used to define it were also not universally fixed.
  4. Contextual Differences: The term might have been used differently for road distances, land surveys, or cosmological scales.
  5. Figurative Use: In some literary or religious contexts, the term might have been used symbolically or hyperbolically rather than as a precise measurement.

How does the Yojana relate to other ancient Indian units?

The Yojana was typically the largest unit in a hierarchical system. A common (though not universal) relationship described in texts like the Arthashastra is:

  • 1 Yojana = 4 Krosas (or Gorutas)
  • 1 Krosa = 1,000 (or sometimes 2,000) Dhanus (bows)
  • 1 Dhanus = 4 Hastas (cubits)
  • 1 Hasta = 24 Angulas (finger widths)

The uncertainty in the base units (hasta, angula) contributes to the uncertainty in the Yojana.

Is the Yojana still used today?

No, the Yojana is an obsolete unit of measurement. It has not been used for practical purposes for centuries and has been entirely replaced by the metric system (kilometers, meters) in India and other relevant regions. Its relevance is purely historical, literary, and cultural.

Is the Yojana an SI unit?

No, the Yojana is not an SI unit. It is an ancient, traditional unit of distance from the Indian subcontinent. The SI base unit for length is the meter (m).

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: Yojana to Millimeter

Yojana (yojana)Millimeter (mm)
0.56,750,000
113,500,000
1.520,250,000
227,000,000
567,500,000
10135,000,000
25337,500,000
50675,000,000
1001,350,000,000
2503,375,000,000
5006,750,000,000
1,00013,500,000,000

People Also Ask

How do I convert Yojana to Millimeter?

To convert Yojana to Millimeter, enter the value in Yojana 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.

Learn more →

What is the conversion factor from Yojana to Millimeter?

The conversion factor depends on the specific relationship between Yojana 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 Yojana?

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

Learn more →

What are common uses for Yojana and Millimeter?

Yojana 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

All conversion formulas have been verified against international standards and authoritative sources to ensure maximum accuracy and reliability.

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: February 19, 2026