Sunset Phenomena Roger Bailey North American Sundial Society Hartford Oct 1999.

Slides:

Advertisements

Similar presentations

Every star, cluster, nebula, galaxy,

Advertisements

Sunset Sundial from Scratch

Multiple Choice Questions

Chapter S1 Celestial Timekeeping and Navigation

Earth’s Motions, Solar Radiation, and the Seasons

Unit III: The Earth in Space

SEASONS AND THE SUN PATH

Motions of the Earth, Moon and Sun

Phys. 102: Introduction to Astronomy

During which month does the Sun appear to rise the highest in the sky for an observer in New York State? (1) December (3) June (2) September (4)

PHYS 1025 – Introductory Astronomy Lecture 2, Either Semester

A100 Oct. 13 Keeping Time READ Essay 2 – Keeping Time in the text, pp

GEU 0047: Meteorology Lecture 3 Seasonal Cycle

Life on the Tilted Teacup Ride

Celestial Sphere Stars seem to be on the inner surface of a sphere surrounding the Earth.

How to calculate when a star, a planet, the moon, or the sun will rise and set* *If you know its right ascension and declination and your latitude and.

The Earth Rotates.

Astronomy 104 Lunar Phases AndEclipses January 24, 2007.

Coordinate systems in Astronomy

PHY134 Introductory Astronomy

PHY134 Introductory Astronomy The Sun and the Moon 1.

Patterns in the Sky (cont)

Earth’s Motions Unit 4.

Celestial Sphere. Local View On earth objects are usually viewed in flat Euclidean geometry. From the earth the stars appear to be fixed on a sphere that.

Do Not Write What is in Yellow APPARENT MOTIONS OF THE CELESTIAL OBJECTS.

Daily Motion of the Sun Daily motion (diurnal motion) along a circle with center on the Earth’s axis Clockwise in the north temperate zone Counterclockwise.

Constellations A constellation is a region of the sky.

Introduction to Astronomy.  Observations lead to theories and laws  Laws are concise statements that summaries a large number of observations.  Theories.

Observational Astrophysics in the visible light Shai Kaspi Technion - March 2015.

Astronomical Coordinates Summary

Terrestrial Coordinates (useful for specifying locations on the surface of the Earth) Longitude - Longitude -- East/West Coordinate -- 0  at the Prime.

Regents Alert*****.  To find out the date you must look at the position of sunrise and sunset.  June 21- Northeast to Northwest.  Dec. 21- Southeast.

Earth’s Rotation and Revolution

Last time: 2.1. Patterns in The Sky: Stars and constellations, TODAY: celestial coordinates 2.2 Seasons,…Precession 2.2 (cont.) The Moon and Eclipses.

Coordinate Systems.

Celestial Sphere. Earthly Sphere Latitude measures the number of degrees north or south of the equator. –DeKalb at 41° 55’ N Longitude measures degrees.

Chapter 1 Predicting the Motions of the Stars, Sun, and Moon.

Bellwork 9/2 Describe what you learned in your lab yesterday in 15 words or less.

A scientific model.  Why do we use the model of the celestial sphere when studying the night sky, even though it does not accurately represent three-dimensional.

Announcements Clear sky patrol has not yet started We will start using PRS units this week, make sure that you have one.

Mastering Astronomy.

Celestial Mechanics Zhao Chen, Jamie Dougherty, Charlene Grahn, Meghan Kane, Richard Li, David Pan, Matthew Salesi, Katelyn Seither, Akash Shah, Sanjeev.

Earth-Sun Relationships The Reasons for the Seasons.

Sky Motions  Diurnal Motion Annual Motion. DIURNAL MOTION o Daily East / West motion of the sky Due to the Earth’s rotation (15°/hour) [360°/24 hours.

AIM: WHAT IS THE CELESTIAL SPHERE? DO NOW: 1.WHICH DATE BEGINS THE SUMMER SOLSTICE? 2.WHERE DO THE SUNS DIRECT RAYS STRIKE DURING THE EQUINOX? 3.HOW MUCH.

Earth-Sun Relationships The Reasons for the Seasons.

AstroLab-2 Locating Stars in the Sky Merav Opher-Fall 2004.

Earth-Sun Relationships The Reasons for the Seasons.

The Sun’s Path. Summer Solstice (approximately June 20-21) North Pole: The North Pole (90 degrees north latitude) receives 24 hours of daylight, as it.

MOTIONS OF SKY. Goals To identify the different parts of the celestial sphere model To understand how to express the location of objects in the sky To.

Our Location on the Earth North South EastWest North South East you are here West.

Chapter 4: Rising & Setting Stars © BRIEF

What is apparent motion? Important to understand what we see and what is actually happening. Apparent motion is what we see from Earth Actual motion is.

Astronomy vs. Astrology Astronomy: Astronomy: The scientific study of matter in outer space, especially the positions, dimensions, distribution, motion,

Phases of the Moon Lab The Celestial Sphere Model One way the celestial sphere model is used explains positions in the sky as seen from YOUR position.

Modeling the Path of the Sun Using Trigonometry

Positional Astronomy Chapter 3 Fundamentals of Radio Interferometry

you thought of going into teaching?”

November 8,2010 Celestial Motions.

The HELIOCENTRIC Model

Chapter 4A: SOLAR RADIATION- GEOMETRY

GEU 0047: Meteorology Lecture 3 Seasonal Cycle

Finding celestial objects in our night sky … … requires knowing celestial coordinates, based on the time of night, and our location Every star, cluster,

ASTRO UNIT 1 REVIEW.

Every star, cluster, nebula, galaxy,

Celestial Sphere Practice Quiz

Chapter 4A: SOLAR RADIATION- GEOMETRY

Presentation transcript:

Sunset Phenomena Roger Bailey North American Sundial Society Hartford Oct 1999

Sunset Phenomena

Simple spherical trigonometry can be used to determine for any location and day of the year –When sunset occurs, –Where the sun sets on the horizon, –The path of the setting sun, and –How long it takes for the sun to set.

Spherical Trigonometry High school math but Non Euclidian geometry Parallel lines meet Angles in triangle > 180° Sides are angles Your position is fixed Sun, stars, planets move with celestial sphere Abducted by NASS aliens, Prof. Bailey is forced to write gnomic equations in center ring

Navigational triangle PZ=CoL, PM=CoD, ZM=CoH Cosine rule: 2 sides and angle Cos A=Cos A Cos B+Sin A Sin B Cos c Sin X= Cos 90-X=Cos X Sin H=Sin L Sin D+Cos L Cos D Cos t Sin D=Sin H Sin L+Cos H Cos L Cos Z Sin L=Sin H Sin D+Cos H Cos D Cos Ψ Sine rule: Sin Z=Cos D Sin t / Cos H P Zenith D Q Ψ M Z t Horizon

Navigators’ Equation Altitude H Sin H = Sin L x Sin D + Cos L x Cos D x Cos t Azimuth Z Sin Z = Cos D x Sin t / Cos H L = Latitude D = Declination of Sun t = time angle from local noon (15° / hour)

Sunset Equation At sunrise and sunset, altitude is zero, neglecting refraction and semi-diameter I f H = 0, then Sin H = 0 Sin L x Sin D + Cos L x Cos D x Cos t = 0 Cos t = -Tan L x Tan D Time of sunset is determined by the latitude and solar declination Sunrise is - t

Sun as the Essence of Time Year: one full orbital period –Full Declination cycle +/- 23.5° solstices & equinoxes –Full Equation of Time cycle Day: one full rotation 360° in 24 hours –Time as an angle –360/24 = 15°/hour = 1°/4 minutes –Sun at Zenith, time angle t = 0 Clocks are wrong!

Clock Time Corrections Longitude correction –Mod (Longitude / 15°) as a time angle –Example (Canmore) 115/15 = 7 hours and 10° or 40’ Daylight Saving Time +1 hour in the summer Equation of Time Correction Solar noon is 1:40 pm MDST on a sunny summer afternoon in Canmore AB

Sunset Time Sunset Equation: Cos t = -Tan L x Tan D Equinox: (21 March, 21 Sept) Declination = 0 –If D = 0, Cos t = 0, t = 90º or 6 hours –Sunrise 6 AM, Sunset 6 PM for any latitude Equator: Latitude = 0 –If L = 0, Cos t = 0, t = 90º or 6 hours –Sunrise 6 AM, Sunset 6 PM for any declination

Time to Sunset Italian Hours Sunset to Sunset Countdown Italian Hours gives time till sunset Airports: Visual Flying Rules RASC Alberta Star Party –Eccles Ranch Observatory –Caroline AB (52.1, 114.7) 0

Endless Day John Dunn Arctic Light

Polar Circles Sunrise Equation Cos t = -Tan L x Tan D Polar Circle, sun does not rise –At noon, t = 0, Cos t = 1 = -Tan L x Tan D –Tan D = 1/Tan L = Cot L = Tan (90-L) –Extreme Declination = +/- 23½º –Extreme Latitude = -/+ 66½º (90-23½)

Sunset Location What is the azimuth of the setting sun? Cosine Rule for the Navigational Triangle Sin D=Sin L Sin H + Cos L Cos H Cos Z For H = 0, Sin H = 0 & Cos H = 1 Cos Z = Sin D / Cos L

Sunset Location Cos Z = Sin D / Cos L For the equator, L = 0, Cos L = 1 Cos Z = Sin D = Cos (90-D) and Z = 90-D –The azimuth of the setting sun is the co-declination For equinox D = 0, Cos Z= 0, then Z = 90 for all L –The sun rises due east and sets due west on the equinox for all latitudes

Sunset Path

Angle with horizon is Ψ Cos Ψ = Sin L / Cos D At equator, L = 0 Cos Ψ = 0, so Ψ = 90° for all declinations At equinox, D =0 Cos Ψ = Sin L = Cos (90-L) Ψ = Co-latitude Horizon Ψ

Sunset Path Reality Corrections –Semidiameter 16’ –Refraction 34’ Time Correction 50’ x 4 / Sin Ψ Azimuth Correction 50’ x Cos Ψ Theoretical Horizon Apparent Horizon Azimuth Correction Time Correction 16’ SD 34’ Refraction Ψ

Dip Correction Earth’s curvature and the height of observer affect the apparent horizon Dip = 0.97 x  height (ft) Height Dip –10 ft 3 ‘ –100 ft 9.7’ –1000 ft 30’ Height Dip

Green Flash Have you seen the Green Flash at the instant of sunset? Can you climb fast enough to increase the dip and see multiple Green Flashes ? Depends on initial height, Ψ and climb rate Height = 0 Climb = 2 fps

Sunset Rate Sunset rate = Solar rate (¼°/minute) x Sin Ψ Equator: Ψ= 90°, the sun always sets at 15’/’ At Latitude 51°, the sun sets at : –Equinox, D = 0, Ψ = 39°, rate is 9.44’/’ –Solstice, D = 23.44°, Ψ = 32.1°, rate is 7.97’/’ Time flies when you are having fun! Tropical sunsets are half as long!

Sunset Phenomena Functions of Latitude and Declination solvable with high school trig and a pocket calculator –Time: Cos t = -Tan L x Tan D –Location: Cos Z = Sin D / Cos L –Path: Cos Ψ = Sin L / Cos D –Rate: Sin Ψ x ¼° / minute (15’/’) Reality checks applicable