Year to Nanosecond Converter

Convert years to nanoseconds with our free online time converter.

Quick Answer

1 Year = 3.155695e+16 nanoseconds

Formula: Year × conversion factor = Nanosecond

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 2025|Reviewed by: Sam Mathew, Software Engineer

From:

To:

How to Use the Year to Nanosecond Calculator:

Enter the value you want to convert in the 'From' field (Year).
The converted value in Nanosecond will appear automatically in the 'To' field.
Use the dropdown menus to select different units within the Time category.
Click the swap button (⇌) to reverse the conversion direction.

How to Convert Year to Nanosecond: Step-by-Step Guide

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

Formula:

1 Year = 3.1557e+16 nanoseconds

Example Calculation:

Convert 60 years: 60 × 3.1557e+16 = 1.8934e+18 nanoseconds

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.

Need to convert to other time units?

View all Time conversions →

📊 Time Table

Print-friendly conversion reference

📋 Unit Symbols

Copy yr & ns symbols

What is a Year and a Nanosecond?

A year is a unit of time based on the orbital period of Earth around the Sun. The word "year" derives from Old English gēar, Proto-Germanic jǣram, related to "to go" (referring to the Sun's apparent journey through the sky).

Types of Years

Tropical year (solar year):

365.2422 days (365 days, 5 hours, 48 minutes, 46 seconds)
Time between successive vernal equinoxes (spring returns)
Basis for Gregorian calendar (tracks seasons accurately)

Julian year (scientific standard):

Exactly 365.25 days = 31,557,600 seconds
Used in astronomy, physics for consistent conversions
Averages Julian calendar leap year cycle (3 × 365 + 1 × 366 ÷ 4)

Sidereal year:

365.2564 days (365 days, 6 hours, 9 minutes, 10 seconds)
Time for Earth to complete one orbit relative to fixed stars
~20 minutes longer than tropical year due to precession of equinoxes

Calendar year (Gregorian):

365 days (common year, 3 out of 4 years)
366 days (leap year, every 4 years with exceptions)
Average: 365.2425 days (97 leap years per 400 years)

Year Conversions (Julian Year = 365.25 days)

| Unit | Value | Calculation | |----------|-----------|-----------------| | Days | 365.25 | Standard definition | | Hours | 8,766 | 365.25 × 24 | | Minutes | 525,960 | 8,766 × 60 | | Seconds | 31,557,600 | 525,960 × 60 | | Weeks | 52.18 | 365.25 ÷ 7 | | Months | 12 | Standard calendar division |

A nanosecond is a unit of time equal to one-billionth (1/1,000,000,000) of a second. It is also 1/1000th of a microsecond.

Note: The Year is part of the imperial/US customary system, primarily used in the US, UK, and Canada for everyday measurements. The Nanosecond belongs to the imperial/US customary system.

History of the Year and Nanosecond

of the Year

1. Ancient Solar Observation (Pre-3000 BCE)

The concept of the year originated from observing seasonal cycles—the return of spring, flooding seasons, astronomical events (solstices, equinoxes).

Key observations:

Vernal equinox (spring): Day and night equal length (~March 20)
Summer solstice: Longest day (~June 21)
Autumnal equinox (fall): Day and night equal (~September 22)
Winter solstice: Shortest day (~December 21)
Tropical year: Time between successive vernal equinoxes = 365.24 days

Why critical? Agricultural societies needed to predict:

Planting seasons (spring planting window)
Flooding cycles (Nile River flooded annually June-September)
Harvest times (fall harvest before winter)
Animal migration patterns

2. Early Calendar Systems (3000-1000 BCE)

Egyptian Calendar (c. 3000 BCE):

365 days = 12 months × 30 days + 5 epagomenal days
No leap years = drifted ~1 day every 4 years = full cycle every 1,460 years (Sothic cycle)
Divided into 3 seasons: Inundation (Akhet), Growth (Peret), Harvest (Shemu)
Problem: Calendar drifted from actual seasons (harvest festivals gradually moved through calendar)

Babylonian Calendar (c. 2000 BCE):

Lunisolar: 12 lunar months (~354 days) + intercalary 13th month every 2-3 years
Metonic cycle (discovered ~432 BCE): 19 solar years ≈ 235 lunar months (7 intercalary months in 19 years)
Better seasonal alignment than pure lunar or 365-day solar calendar

Chinese Calendar (c. 1600 BCE):

Lunisolar: 12-13 months per year, intercalary months added algorithmically
Still used today for Chinese New Year (late January to mid-February)

Mesoamerican Calendars (c. 1000 BCE):

Haab (Maya civil calendar): 365 days = 18 months × 20 days + 5 unlucky days (Wayeb)
Tzolk'in (ritual calendar): 260 days = 13 numbers × 20 day names
Calendar Round: 52 Haab years = 73 Tzolk'in cycles (18,980 days)

3. Roman Calendar Evolution (753 BCE - 46 BCE)

Romulus Calendar (753 BCE - legendary):

10 months, 304 days, starting in March (spring equinox)
Winter gap (~61 days) unnamed = calendar chaos

Numa Pompilius Reform (c. 713 BCE):

Added January and February = 12 months, 355 days
Required intercalary month (Mercedonius) inserted periodically = political corruption
Calendar drifted severely (festivals months off from intended seasons)

Problem by 46 BCE: Calendar drifted ~3 months ahead of seasons (spring equinox in mid-summer)

4. Julian Calendar (46 BCE - 1582 CE)

Julius Caesar's reform (46 BCE):

Consulted Egyptian astronomer Sosigenes of Alexandria
365.25-day year: 365 days + leap day every 4 years (February 29)
46 BCE = "Year of Confusion" (445 days long) to realign calendar with seasons
January 1 established as New Year (previously March 1)

Julian leap year rule:

Every year divisible by 4 = leap year (e.g., 4, 8, 12, ... 2020, 2024)
Simple, systematic = dramatic improvement over irregular Roman intercalation

Problem with Julian calendar:

Tropical year = 365.2422 days (not exactly 365.25)
Julian calendar gains ~11 minutes per year = 3 days every 400 years
By 1582 CE: Calendar drifted 10 days ahead (vernal equinox on March 11 instead of March 21)

5. Gregorian Calendar (1582 CE - Present)

Pope Gregory XIII's reform (1582):

Goal: Restore vernal equinox to March 21 (for Easter calculation)
Correction: Removed 10 days (October 4, 1582 → October 15, 1582)
New leap year rule:
1. Year divisible by 4 = leap year (like Julian)
2. EXCEPT century years (1700, 1800, 1900, 2100) = NOT leap year
3. EXCEPT century years divisible by 400 (1600, 2000, 2400) = leap year
Result: 97 leap years per 400 years = 365.2425 days average
Accuracy: Only 27 seconds/year error = 1 day off every ~3,030 years

Why the reform?

Easter calculation: Christian Easter tied to vernal equinox (first Sunday after first full moon after March 21)
Julian drift moved equinox to March 11 = Easter dates increasingly inaccurate
Catholic Church needed calendar reform for liturgical calendar

Global adoption:

Catholic countries (Spain, Portugal, Italy, Poland): Immediately (October 1582)
Protestant countries: Resisted initially (religious conflict with Catholic Pope)
- Britain and colonies: 1752 (removed 11 days: Sept 2 → Sept 14)
- Germany (Protestant states): 1700 (removed 10 days)
Eastern Orthodox: 1900s (Russia 1918, Greece 1923)
Non-Christian countries: 20th century for civil purposes
- Japan: 1873 (Meiji era modernization)
- China: 1912 (Republic of China)
- Turkey: 1926 (Atatürk's secular reforms)
Now universal for international business, diplomacy, science

6. Modern Refinements and Proposals

Leap second (introduced 1972):

Earth's rotation gradually slowing (tidal friction from Moon)
Atomic clocks (SI second) vs. Earth's rotation = gradual drift
Leap second occasionally added (usually June 30 or December 31) to keep atomic time within 0.9 seconds of Earth rotation
27 leap seconds added 1972-2016 (~1 per 1.5 years average)

Failed calendar reform proposals:

World Calendar (1930s-1960s): 4 identical quarters, perpetual calendar (same dates always same day of week), extra "worldsday" outside week
International Fixed Calendar (early 1900s): 13 months × 28 days + 1 extra day (year day)
Opposition: Religious groups (Sabbath observance), businesses (calendar change costs), cultural inertia

Why Gregorian calendar persists despite imperfections:

Universal adoption = massive switching cost
"Good enough": 1-day error every 3,030 years = negligible for practical purposes
Cultural entrenchment: Decades, centuries, millennia aligned with current system

The nanosecond is derived from the SI base unit, the second, using the metric prefix 'nano-', indicating a factor of 10⁻⁹. Measurements at this timescale became necessary with the development of very high-speed computing, advanced physics, and optical communications.

Common Uses and Applications: years vs nanoseconds

Explore the typical applications for both Year (imperial/US) and Nanosecond (imperial/US) to understand their common contexts.

Common Uses for years

and Applications

1. Age Calculation

Formula: Current year - Birth year = Age (approximate, adjust if birthday hasn't occurred yet)

Example 1: Born 1990, current year 2025

Age = 2025 - 1990 = 35 years old (if birthday already passed)
Age = 34 years old (if birthday hasn't occurred yet this year)

Precise age calculation:

Born: March 15, 1990
Today: January 10, 2025
Age = 2025 - 1990 - 1 = 34 years old (birthday hasn't passed yet, subtract 1)

Century calculation:

Born 1999: "90s kid" or "90s baby"
Born 2000-2009: "2000s kid"
Born 2010+: "2010s kid" or Gen Alpha

2. Interest and Investment Calculations

Simple interest (annual):

Formula: Interest = Principal × Rate × Time
Example: $10,000 at 5% APR for 3 years
- Interest = $10,000 × 0.05 × 3 = $1,500
- Total = $10,000 + $1,500 = $11,500

Compound interest (annual compounding):

Formula: Future Value = Principal × (1 + Rate)^Years
Example: $10,000 at 5% APY for 3 years
- FV = $10,000 × (1.05)³ = $10,000 × 1.157625 = $11,576.25

Rule of 72 (doubling time):

Formula: Years to double ≈ 72 ÷ Interest Rate
Example: 8% annual return → 72 ÷ 8 = 9 years to double
$10,000 at 8% → $20,000 in 9 years

3. Depreciation (Asset Value Decline)

Straight-line depreciation:

Formula: Annual Depreciation = (Cost - Salvage Value) ÷ Useful Life Years
Example: $30,000 car, $5,000 salvage, 5-year life
- Annual depreciation = ($30,000 - $5,000) ÷ 5 = $5,000/year
- Year 1: $30,000 - $5,000 = $25,000
- Year 2: $25,000 - $5,000 = $20,000

Accelerated depreciation:

Cars typically lose 20-30% value first year, then 15-20% annually
Electronics: Often lose 30-50% value first year

4. Project and Timeline Planning

Standard project durations:

1-year project: Long-term strategic initiative
Multi-year projects: Infrastructure (3-10 years), construction (2-5 years), software development (1-3 years)

Gantt charts and timelines:

Years as major milestones
Year 1: Planning and design
Year 2: Development and construction
Year 3: Testing and deployment
Year 4: Operations and maintenance

5. Insurance and Contracts

Insurance terms:

Term life insurance: 10-year, 20-year, 30-year terms
- Premiums locked for term duration
- Coverage expires at end of term unless renewed
Auto insurance: 6-month or 1-year policies (renewed annually/semi-annually)
Health insurance: 1-year open enrollment period (select plan for following year)

Employment contracts:

1-year contract: Fixed-term employment (common for contractors, academics)
Multi-year contracts: Athletes (3-5 year contracts), executives (2-4 years)
Non-compete clauses: Often 1-2 years after leaving company

Leases:

Apartment leases: 1-year standard (12 months)
Commercial leases: 3-10 years typical
Car leases: 2-4 years (24-48 months)

6. Statistical and Data Analysis

Time series data:

Annual data points: GDP growth rate (year-over-year), population (annual census estimates)
Trend analysis: "5-year moving average" smooths short-term fluctuations

Year-over-year (YoY) comparisons:

Formula: YoY Growth = (This Year - Last Year) ÷ Last Year × 100%
Example: Revenue $10M (2023) → $12M (2024)
- YoY growth = ($12M - $10M) ÷ $10M × 100% = 20% YoY growth

Compound Annual Growth Rate (CAGR):

Formula: CAGR = (Ending Value ÷ Beginning Value)^(1/Years) - 1
Example: Revenue $10M (2020) → $15M (2025) = 5 years
- CAGR = ($15M ÷ $10M)^(1/5) - 1 = 1.5^0.2 - 1 = 0.0845 = 8.45% CAGR

7. Warranty and Guarantee Periods

Product warranties:

Electronics: 1-year manufacturer warranty (e.g., Apple 1-year limited warranty)
Appliances: 1-2 years parts and labor
Cars: 3-year/36,000-mile bumper-to-bumper, 5-year/60,000-mile powertrain
Home construction: 1-year builder warranty (workmanship), 10-year structural

Service guarantees:

Software licenses: 1-year subscription (renewable)
Extended warranties: 2-5 years beyond manufacturer warranty

When to Use nanoseconds

Computing: Measuring RAM access times, CPU clock cycles (e.g., a 3 GHz processor has a clock cycle of about 0.33 ns), L1/L2 cache access times.
Physics: Lifetimes of very short-lived particles, timing in nuclear reactions, duration of mode-locked laser pulses.
Electronics: Signal propagation time on circuit boards and integrated circuits. Light travels approximately 30 centimeters (about 1 foot) in one nanosecond in a vacuum.
Telecommunications: Timing in optical fiber communications.
Chemistry: Studying ultrafast chemical reactions using spectroscopy.

Additional Unit Information

About Year (yr)

1. How many days are in a year?

It depends on the type of year:

Common year (Gregorian): 365 days (occurs 3 out of 4 years)
Leap year (Gregorian): 366 days (occurs every 4 years, with exceptions)
Julian year (scientific standard): Exactly 365.25 days
Tropical year (astronomical): 365.2422 days (365 days, 5 hours, 48 minutes, 46 seconds)
Gregorian average: 365.2425 days (97 leap years per 400 years)

For most conversions: Use 365.25 days (Julian year standard).

2. What is a leap year?

Leap year: Year with 366 days instead of 365, adding February 29 (leap day).

Gregorian leap year rule:

Year divisible by 4 → leap year (e.g., 2024, 2028)
EXCEPT century years (1700, 1800, 1900, 2100) → NOT leap year
EXCEPT century years divisible by 400 (1600, 2000, 2400) → leap year

Why leap years?

Tropical year = 365.2422 days (not exactly 365)
Without leap years: Calendar drifts ~1 day every 4 years = 25 days every century
Leap years keep calendar aligned with seasons

Next leap years: 2024, 2028, 2032, 2036, 2040, 2044, 2048

3. Why is 365.25 days often used for a year in calculations?

365.25 days = Julian year, the scientific standard for conversions and calculations.

Calculation: Average of Julian calendar leap year cycle

3 common years (365 days each) + 1 leap year (366 days) = 1,461 days
1,461 days ÷ 4 years = 365.25 days/year

Advantages:

Exact value (no decimals beyond 2 places)
Simple calculations: Multiply by 365.25 for day conversions
Scientific standard: Used in astronomy, physics, engineering
Defined precisely: 1 Julian year = 31,557,600 seconds exactly

When to use 365.25: General conversions, scientific calculations, multi-year projections.

When NOT to use: Specific date calculations (use actual calendar with leap years).

4. How many seconds are in a year?

Julian year (365.25 days):

1 year = 365.25 days × 24 hours/day × 60 minutes/hour × 60 seconds/minute
1 year = 365.25 × 86,400 seconds/day
1 year = 31,557,600 seconds exactly

Tropical year (365.2422 days):

365.2422 × 86,400 = 31,556,925.2 seconds (astronomical year)

Common year (365 days):

365 × 86,400 = 31,536,000 seconds

Leap year (366 days):

366 × 86,400 = 31,622,400 seconds

Standard answer: 31,557,600 seconds (Julian year).

5. What is the difference between calendar year and fiscal year?

Calendar year:

January 1 - December 31
Standard Gregorian calendar year
Used for personal taxes (US), general dating, most non-business contexts

Fiscal year (FY):

Any 12-month accounting period chosen by organization for financial reporting
Often NOT January-December
Allows companies to align reporting with business cycles

Common fiscal years:

US federal government: October 1 - September 30 (FY2025 = Oct 2024-Sep 2025)
UK government: April 1 - March 31
Retailers: Often end January 31 (includes holiday season)
Universities: Often July 1 - June 30 (aligns with academic year)

Why different fiscal years?

Seasonal businesses: Retailers want holiday sales (Nov-Dec) mid-year, not at year-end (accounting complexity)
Budgeting cycles: Governments approve budgets before fiscal year starts
Tax planning: Align fiscal year with tax advantages

6. How old am I in years?

Simple formula: Current year - Birth year (adjust if birthday hasn't passed)

Precise calculation:

Subtract birth year from current year
If current date < birthday this year, subtract 1

Example 1:

Born: June 15, 1995
Today: October 20, 2025
Age = 2025 - 1995 = 30 (birthday already passed in 2025) → 30 years old

Example 2:

Born: November 10, 1995
Today: October 20, 2025
Age = 2025 - 1995 - 1 = 29 (birthday hasn't passed yet in 2025) → 29 years old

Programming formula:

age = current_year - birth_year
if (current_month < birth_month) OR (current_month == birth_month AND current_day < birth_day):
    age = age - 1

7. What is the tropical year vs. sidereal year?

Tropical year (solar year):

365.2422 days (365 days, 5 hours, 48 minutes, 46 seconds)
Time between successive vernal equinoxes (spring returns)
Basis for Gregorian calendar (tracks seasons)
What we use for civil calendar

Sidereal year:

365.2564 days (365 days, 6 hours, 9 minutes, 10 seconds)
Time for Earth to complete one orbit relative to fixed stars
~20 minutes (~0.014 days) longer than tropical year

Why the difference?

Precession of equinoxes: Earth's rotational axis wobbles (like spinning top)
Axis completes full wobble every ~25,800 years (Platonic year)
Vernal equinox drifts westward ~50 arcseconds per year relative to stars
Result: Tropical year (season-based) slightly shorter than sidereal year (star-based)

Which to use?

Tropical year: Calendar purposes (Gregorian calendar tracks seasons)
Sidereal year: Astronomy (tracking Earth's orbit relative to stars)

8. Why did the Gregorian calendar replace the Julian calendar?

Problem with Julian calendar:

Julian year = 365.25 days (365 days + leap day every 4 years)
Tropical year = 365.2422 days
Difference: 365.25 - 365.2422 = 0.0078 days/year = ~11 minutes/year
Drift: 3 days every 400 years

Impact by 1582:

Calendar drifted 10 days ahead of seasons (1,257 years × 11 min/year ≈ 10 days)
Vernal equinox on March 11 instead of March 21
Easter calculation increasingly inaccurate (tied to vernal equinox)

Gregorian solution:

Removed 10 days immediately (Oct 4, 1582 → Oct 15, 1582)
New leap year rule: Skip 3 leap years every 400 years (century years not divisible by 400)
Result: 365.2425 days/year average (97 leap years per 400 years)
Error: Only 27 seconds/year = 1 day off every ~3,030 years

Success: Gregorian calendar now universal for civil purposes worldwide.

9. What are decade, century, and millennium?

Decade:

10 years
Examples: 1990s (1990-1999), 2020s (2020-2029)
Casual usage: Often refers to cultural/generational period

Century:

100 years
20th century = 1901-2000 (NOT 1900-1999, because no year 0)
21st century = 2001-2100 (NOT 2000-2099)
Notation: "19th century" or "1800s" (informal)

Millennium:

1,000 years
1st millennium = 1-1000 CE
2nd millennium = 1001-2000 CE
3rd millennium = 2001-3000 CE
Y2K (Year 2000) celebrated new millennium, but technically started 2001

Why century/millennium boundaries confusing?

No year 0 in Gregorian calendar (1 BCE → 1 CE)
1st century = years 1-100 (not 0-99)
Centuries numbered one ahead of their "hundreds digit" (1900s = 20th century)

10. How many hours/minutes are in a year?

Julian year (365.25 days):

Hours: 365.25 days × 24 hours/day = 8,766 hours
Minutes: 8,766 hours × 60 minutes/hour = 525,960 minutes
Seconds: 525,960 minutes × 60 seconds/minute = 31,557,600 seconds

Common year (365 days):

Hours: 365 × 24 = 8,760 hours
Minutes: 8,760 × 60 = 525,600 minutes (famous from musical "Rent": "525,600 minutes, how do you measure a year?")

Leap year (366 days):

Hours: 366 × 24 = 8,784 hours
Minutes: 8,784 × 60 = 527,040 minutes

Standard answer: 8,766 hours or 525,960 minutes (Julian year).

11. What is a leap second?

Leap second: Extra second occasionally added to Coordinated Universal Time (UTC) to keep atomic time synchronized with Earth's rotation.

Why needed?

Atomic clocks (SI second): Extremely precise, constant
Earth's rotation: Gradually slowing (tidal friction from Moon ~2 milliseconds per century)
Drift: Atomic time gradually diverges from Earth's actual rotation
Solution: Add leap second when difference approaches 0.9 seconds

Implementation:

Usually added June 30 or December 31
Clock reads: 23:59:59 → 23:59:60 → 00:00:00 (extra second)
27 leap seconds added 1972-2016 (~1 every 1.5 years)
No leap seconds 2017-present (Earth's rotation hasn't required it)

Controversy:

Causes computer system problems (software doesn't expect 60-second minutes)
Proposed abolition: Let atomic time and Earth rotation drift, adjust in larger increments decades later

12. How do I convert years to other units?

Quick conversion formulas (Julian year = 365.25 days):

Years to days:

days = years × 365.25
Example: 3 years = 3 × 365.25 = 1,095.75 days

Years to weeks:

weeks = years × 52.18 (365.25 ÷ 7)
Example: 2 years = 2 × 52.18 = 104.36 weeks

Years to months:

months = years × 12
Example: 5 years = 5 × 12 = 60 months

Years to hours:

hours = years × 8,766 (365.25 × 24)
Example: 1 year = 8,766 hours

Years to seconds:

seconds = years × 31,557,600 (365.25 × 86,400)
Example: 1 year = 31,557,600 seconds

Years to decades/centuries:

decades = years ÷ 10
centuries = years ÷ 100

About Nanosecond (ns)

How many nanoseconds are in one second?

There are 1,000,000,000 (one billion) nanoseconds in a second.

How many nanoseconds are in one microsecond?

There are 1,000 nanoseconds in a microsecond.

How far does light travel in one nanosecond?

In a vacuum, light travels approximately 29.98 centimeters (about 0.98 feet) in one nanosecond.

Conversion Table: Year to Nanosecond

Year (yr)	Nanosecond (ns)
0.5	15,778,476,000,000,000
1	31,556,952,000,000,000
1.5	47,335,428,000,000,000
2	63,113,904,000,000,000
5	157,784,760,000,000,000
10	315,569,520,000,000,000
25	788,923,800,000,000,000
50	1,577,847,600,000,000,000
100	3,155,695,200,000,000,000
250	7,889,238,000,000,000,000
500	15,778,476,000,000,000,000
1,000	31,556,952,000,000,000,000

How do I convert Year to Nanosecond?

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

Learn more →

What is the conversion factor from Year to Nanosecond?

The conversion factor depends on the specific relationship between Year and Nanosecond. 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 Nanosecond back to Year?

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

Learn more →

What are common uses for Year and Nanosecond?

Year and Nanosecond are both standard units used in time measurements. They are commonly used in various applications including engineering, construction, cooking, and scientific research. Browse our time converter for more conversion options.

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

Helpful Conversion Guides

Learn more about unit conversion with our comprehensive guides:

All Time Conversions

Second to Minute Second to Hour Second to Day Second to Week Second to Month Second to Year Second to Millisecond Second to Microsecond Second to Nanosecond Second to Decade Second to Century Second to Millennium Second to Fortnight Second to Planck Time Second to Shake Second to Sidereal Day Second to Sidereal Year Minute to Second Minute to Hour Minute to Day Minute to Week Minute to Month Minute to Year Minute to Millisecond Minute to Microsecond Minute to Nanosecond Minute to Decade Minute to Century Minute to Millennium Minute to Fortnight Minute to Planck Time Minute to Shake Minute to Sidereal Day Minute to Sidereal Year Hour to Second Hour to Minute Hour to Day Hour to Week Hour to Month Hour to Year Hour to Millisecond Hour to Microsecond Hour to Nanosecond Hour to Decade Hour to Century Hour to Millennium Hour to Fortnight Hour to Planck Time Hour to Shake Hour to Sidereal Day Hour to Sidereal Year Day to Second Day to Minute Day to Hour Day to Week Day to Month Day to Year Day to Millisecond Day to Microsecond Day to Nanosecond Day to Decade Day to Century Day to Millennium Day to Fortnight Day to Planck Time Day to Shake Day to Sidereal Day Day to Sidereal Year Week to Second Week to Minute Week to Hour Week to Day Week to Month Week to Year Week to Millisecond Week to Microsecond Week to Nanosecond Week to Decade Week to Century Week to Millennium Week to Fortnight Week to Planck Time Week to Shake Week to Sidereal Day Week to Sidereal Year Month to Second Month to Minute Month to Hour Month to Day Month to Week Month to Year Month to Millisecond Month to Microsecond Month to Nanosecond Month to Decade Month to Century Month to Millennium Month to Fortnight Month to Planck Time Month to Shake Month to Sidereal Day Month to Sidereal Year Year to Second Year to Minute Year to Hour Year to Day Year to Week Year to Month Year to Millisecond Year to Microsecond Year to Decade Year to Century Year to Millennium Year to Fortnight Year to Planck Time Year to Shake Year to Sidereal Day Year to Sidereal Year Millisecond to Second Millisecond to Minute

Time Converter

Convert between all time units: