🌅 Sunrise & Sunset Calculator
Get exact sunrise, sunset, solar noon, day length, morning and evening golden hour windows, and all three twilight phases - civil, nautical and astronomical - for any city or GPS coordinates worldwide. Powered by the NOAA solar position algorithm, accurate to within 1 minute for latitudes between ±60°.
📍 Select Location & Date
📅 Yearly Sunrise/Sunset Table
| Month | Sunrise | Sunset | Day Length | Solar Noon |
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❓ Frequently Asked Questions
Sunrise Sunset Calculator - Times, Twilight Phases and Golden Hour Explained
Knowing the exact time of sunrise and sunset matters far more than most people realise. Whether you are a photographer hunting the golden hour, a farmer planning field work, a hiker planning a trail that ends before dark, a traveller trying to catch the view from a rooftop at the right moment, or simply someone who wants to understand why days feel so much shorter in December - this calculator gives you the complete solar picture for any location and any date, calculated from astronomical first principles using the NOAA solar algorithm.
How Sunrise and Sunset Times Are Calculated
This calculator uses the NOAA (National Oceanic and Atmospheric Administration) solar position algorithm - the same equations used by meteorologists, astronomers and navigation systems worldwide. The core calculation works through these steps:
- Julian Date: Convert the calendar date into a continuous day count from January 1, 4713 BCE - this makes astronomical arithmetic straightforward
- Sun's declination: Calculate the angle of the sun relative to Earth's equatorial plane for that date. This changes throughout the year due to Earth's 23.5° axial tilt and is what drives seasonal day length changes
- Equation of time: Account for the variation between true solar time and mean clock time - this varies up to ±16 minutes throughout the year due to Earth's elliptical orbit
- Hour angle: Calculate the angular distance the sun needs to travel to reach the horizon, accounting for atmospheric refraction (0.833° - the reason we see the sun slightly before it geometrically clears the horizon)
- Local times: Convert the hour angle back to local time using your longitude and UTC offset
The result is accurate to within approximately 1 minute for latitudes between ±60° (covering most of the populated world) and for dates within a few centuries of the present.
Golden Hour - The Photographer's Most Valuable Time Window
Golden hour is not a myth or marketing language - it is a precise optical phenomenon with a scientific explanation. When the sun is within approximately 6° of the horizon (roughly the first and last hour of daylight), sunlight takes a dramatically longer path through Earth's atmosphere compared to when the sun is overhead.
- Warm colour temperature: The longer atmospheric path scatters short-wavelength blue light away, leaving only long-wavelength oranges and reds - giving subjects a warm, golden cast that is almost impossible to replicate artificially
- Soft, directional light: Low-angle light wraps around subjects, reducing harsh shadows while still providing the directional quality that reveals texture and three-dimensional form
- Long shadows: Shadows extend dramatically at low sun angles, adding depth, drama and graphic interest to landscapes and architecture
- Reduced intensity: The same atmospheric scattering that warms the light also reduces its intensity - making exposures more manageable and reducing the risk of blown highlights
The duration of golden hour varies significantly by latitude and season. Near the equator it lasts a crisp 20–40 minutes. At higher latitudes in summer (London, Stockholm, Reykjavik), the sun sets at such a shallow angle that golden hour can stretch to 2–3 hours - a significant reason why northern European landscape photography is legendary.
The Three Twilight Phases - What They Mean and Why They Matter
🌆 Civil Twilight (0–6° below horizon)
- The brightest twilight phase - sky still has significant light
- Outdoor activities are possible without artificial lighting
- Horizon is clearly defined, colours in the sky are vivid
- Street lights and car headlights typically activate during this phase
- Legal definition in many countries for aviation "day" limits
- The "blue hour" for photographers - rich cobalt sky tones just before and after golden hour
🌊 Nautical & 🔭 Astronomical Twilight
- Nautical (6–12°): Sea horizon still visible, enabling celestial navigation - historically critical for maritime navigation. Sky is a deep blue with brighter stars becoming visible
- Astronomical (12–18°): Sky dark enough for most telescope observations except near the horizon. Only the Milky Way and deep sky objects near the zenith remain washed out
- Astronomical night (18°+): No solar illumination - full darkness for stargazing, astrophotography and observatory work
- At high latitudes in summer, astronomical twilight can persist all night - "white nights" in St Petersburg, for example
Why Sunrise and Sunset Times Vary So Much Across India
India uses a single time zone - Indian Standard Time (UTC+5:30) - despite spanning 29 degrees of longitude, from Gujarat at 68°E to Arunachal Pradesh at 97°E. This creates a significant mismatch between clock time and solar time across the country:
- Arunachal Pradesh (97°E): Sunrise can be as early as 4:20 AM IST in summer - the sun is fully up while most of India is still asleep by the clock
- Gujarat / Rajasthan (68–72°E): Sunset in summer can be as late as 7:45–8:00 PM IST
- The difference: Solar noon in Arunachal Pradesh occurs about 1 hour 45 minutes before solar noon in Gujarat, even though both locations show 12:00 on the same clock
- Seasonal variation in New Delhi: Sunrise ranges from ~5:23 AM in June to ~7:14 AM in December - a nearly 2-hour swing through the year
This calculator uses your exact coordinates and UTC offset to compute true local solar times, not just the IST approximation. Enter your specific city's coordinates for accurate results regardless of where in India - or the world - you are.
Solar Noon - The Most Underrated Solar Data Point
Solar noon is when the sun reaches its maximum altitude for the day and crosses the local meridian - the moment when shadows are shortest and the sun is due south (in the Northern Hemisphere) or due north (in the Southern Hemisphere). It is rarely at 12:00 PM for two reasons:
- Longitude offset within time zones: Time zones are defined by a central meridian. Every degree east or west of that meridian shifts solar noon by 4 minutes. In India, the IST reference meridian is 82.5°E. Mumbai at 72.8°E is 9.7° west - solar noon occurs approximately 39 minutes later by the clock than pure geometry would suggest
- Equation of time: Earth's elliptical orbit and axial tilt cause the sun to appear to run up to 16 minutes fast or slow relative to a uniform clock throughout the year. This is why the latest sunrise of the year and the shortest day of the year do not fall on exactly the same date
Knowing solar noon is useful for: setting up solar panels at peak angle, finding true geographic south/north without a compass, understanding why your sundial reads differently from your watch, and planning outdoor photography to avoid harsh overhead light.