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

Slides:

Advertisements

Similar presentations

Chapter S1 Celestial Timekeeping and Navigation

Advertisements

Geology/Physics 360 Astronomy Chapter 1: The Celestial Sphere.

Chapter 2 Discovering the Universe for Yourself

PHYS 1025 – Introductory Astronomy Lecture 2, Either Semester

Celestial Coordinates

Apparent/Actual Motions Summary

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

Observing and the Sky Astronomy 311 Professor Lee Carkner Lecture 3.

Guiding Questions What role did astronomy play in ancient civilizations? Are the stars that make up a constellation actually close to one other? Are the.

Observing Astronomy 315 Professor Lee Carkner Lecture 3.

Prologue Welcome to PH109 Exploring the Universe Dr. Michael L. Cobb Fall, 2003.

The Earth Rotates.

John T. McGraw, Professor Laurel Ladwig, Planetarium Manager

Constellations. Celestial Sphere Our Point of View.

Review Questions How do you write Scientific Notation? How do you write Scientific Notation? What is the difference between Angular Measurements and Linear.

An Earth Day Sidereal Day: 23 hr 56 min 4 sec Motion relative to background stars Mean Solar Day: 24 hours The average time between meridian crossings.

Astronomy 104 Lunar Phases AndEclipses January 24, 2007.

The Solar System.

Observing and the Sky Astronomy 311 Professor Lee Carkner Lecture 3.

Today’s Lecture How to find astronomical objects

Grab your text book Chapter 1 Astronomy Today 7th Edition

The Celestial Sphere The 88 official constellations cover the celestial sphere. If you do not have a model of the celestial sphere to bring to class, you.

Motion in the Sky. Discussion How do we estimate how far away things are from us in everyday life?

Grab your text book Chapter 1 Astronomy Today 7th Edition

Today’s lecture Scientific method Night sky Celestial coordinate systems Parallax Angular size.

Introduction To Astronomy Lesson 1

Constellations A constellation is a region of the sky.

Our goals for learning:

Earth Science 22.2A Earth-Sun System

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

The Celestial Sphere Stars at different distances all appear to lie on the celestial sphere. The 88 official constellations cover the celestial sphere.

Groups of dark brown streaks have been photographed by the Mars Reconnaissance Orbiter on melting pinkish sand dunes covered with light frost. Dark sand.

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

Astronomical Coordinates Summary

NATS From the Cosmos to Earth A model of the celestial sphere shows the patterns of the stars, the borders of the 88 official constellations, the.

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

Knowing The Heavens Hawaii: latitude 20 deg Washington D.C.: latitude 38 deg.

Seasons. Position of Ecliptic on the Celestial Sphere Earth axis is tilted w.r.t. ecliptic by 23 ½ degrees Equivalent: ecliptic is tilted by 23 ½ degrees.

Alta High Astronomy Intro: Astronomy A stellar course to be in!

SUN & SEASONS UFO Size of Stuff in the Sky Earth  * Eye/brain gauges angular size soccer ball  alone doesn’t give you true size!

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.

Chapter 0 Lecture Charting the Heavens.

Where is it? On the Celestial Sphere. Longitude and Latitude On Earth: Longitude is how far you are, in degrees, East or West of the “Prime Meridian”

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 2 Discovering the Universe for Yourself. What does the universe look like from Earth? With the naked eye, we can see more than 2,000 stars as.

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.

First announcement: full moon tonight at 12:18 AM.

Mastering Astronomy.

1 Lines in the Sky In order to use the sky to measure time you need to measure the location of objects in the sky. We will look at two methods of measuring.

Motions of the Solar System. Earth’s Motions Earth has Three Motions 1. Daily 2. Yearly 3. Cyclic.

The Daily Motion As the Earth rotates, the sky appears to us to rotate in the opposite direction. The sky appears to rotate around the N (or S) celestial.

1.Stars move from east to west over the course of the night 2.Change slightly from one night to the next 3.However, their relative positions remain.

The sky Our place in space ConstellationsMeasurement Celestial Sphere Polaris and precession $ 200 $ 200$200 $ 200 $ 200 $400 $ 400$400 $ 400$400.

Constellations come, and climb the heavens, and go, And thou dost see them rise, Star of the Pole! and thou dost see them set, Alone,

Chapter 0: Charting the Heavens. Units of Chapter 0 The “Obvious” View Earth’s Orbital Motion The Motion of the Moon The Measurement of Distance Science.

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

Local and Sky Coordinates

© 2010 Pearson Education, Inc. Chapter 2 Discovering the Universe for Yourself.

Chapter 4: Rising & Setting Stars © BRIEF

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

Motion in the Sky. Discussion What is a year? Discussion What is a day?

Chapter 2 Discovering the Universe for Yourself. 2.1 Patterns in the Night Sky What does the universe look like from Earth? Why do stars rise and set?

Research Experiences for Undergraduates (REU)

Chapter S1 Celestial Timekeeping and Navigation

Ancient astronomers believed that the stars were attached to a celestial sphere surrounding the Earth.

Sun’s annual motion and the Seasons

Navigating the Night Sky

Introduction To Astronomy & Celestial Coordinates

November 8,2010 Celestial Motions.

Presentation transcript:

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

Today’s lecture How to locate objects on the sky Celestial sphere, coordinates on the sky Motion of stars on the sky Motions of the sun and planets The seasons Reading: 1.5,

What causes the seasons? 1.The orbit of the Earth is an ellipse, not a circle, and the Earth is closer to the Sun in summer than in winter. 2.The rotation of the Earth is tilted relative to its orbit.

How does one locate an object on the sky? 1.By drawing imaginary patterns on the sky (the constellations) and then locating the object relative to the stars in the constellations. 2.By drawing an imaginary coordinate system on the sky, then specifying the objects coordinates.

Eighty-eight constellations cover the entire sky stars visible to unaided eye (only half are above the horizon). 88 semi-rectangular groups of stars called constellations. Some stars in the constellations are quite close while others are very far away.

Finding M51

We use angles to denote the positions and apparent sizes of objects in the sky.

Your hand at arm’s length is about 10 degrees wide Your thumb at arm’s length is about 2 degrees wide

Coordinate system

Coordinates are Latitude = degrees North or South of the equator Longitude = degrees East or West of the “Prime meridian” Prime meridian is historically defined as longitude of the Royal Observatory in Greenwich, England

Sky coordinate system Introduce the ‘celestial sphere’ This is an imaginary sphere drawn in space with the earth at its center. We align the sphere with the Earth.

Coordinates are: Declination = degrees North or South of the equator. Right ascension = degrees East of the “Vernal equinox”. Vernal equinox is defined as the position of the Sun on the first day of spring. Note it is a point on the sky, not the earth.

Motion of stars on the sky

The rotation of the Earth causes the stars to appear to move on the sky.

Angular Measure for Small Angles 1º = 60 arcminutes = 60′ 1′ = 60 arcseconds = 60″ e.g., On January 1, 2004, the planet Saturn had an angular diameter of 19.7″ as viewed from Earth.

Motion of the sun and planets on the sky The Earth and other planets orbit around the Sun. This causes the Sun and the planets to appear to move in the sky when viewed from Earth. How does this work?

Crucial facts are that: 1) All of the planets lie in one disk around the sun. The plane of this disk is called the ecliptic plane.

2) The rotation of the Earth is tilted relative to its orbit by 23.5°

Over the course of a year, the Sun’s position in the sky changes.

Dec. 21 Winter Solstice March 21 Vernal Equinox June 21 Summer Solstice Sept. 21 Autumnal equinox

Therefore, the sun and planets move around a circle (the ecliptic) on the celestial sphere which is tilted relative to the celestial equator

What causes the seasons? 1.The orbit of the Earth is an ellipse, not a circle, and the Earth is closer to the Sun in summer than in winter. 2.The rotation of the Earth is tilted relative to its orbit.

Earth’s tilt causes the seasons

How long does it take the Earth to make one full rotation? 1.24 hours 2.23 hours 56 minutes 4 seconds days

Sidereal vs. Solar Day The Earth’s TRUE rotation period is 23h 56m 3s, not 24hrs! This is called the sidereal period or the rotation period relative to the stars. It takes about 4 minutes more rotation for the Sun to be in the same place as yesterday. Hence a solar day, or time from noon to noon, is 23h 56m + 4m = 24 hours

Sidereal vs. Solar Day

Review questions How many coordinates are needed to locate a star on the sky? What are the names of the coordinates on the celestial sphere? What causes the seasons? Does the sun rise higher in the summer or winter? How long does it take the Earth to make one full rotation?