Chapter 9 The Moon. Why does the Moon keep the same face turned toward the Earth Revolution and rotation - 182 – The moon moves eastward 13 degrees per.

Slides:

Advertisements

Similar presentations

The Cycles of the Moon The phases of the moon The tides Lunar eclipses

Advertisements

Revolution and Rotation of the Moon

Chapter 3: Cycles of the Sky.

Chapter 3 The Cycles of the Moon.

Motion of Earth and Moon around the Sun

This Set of Slides These slides cover some more information about time, the phases of the moon, and solar and lunar eclipses. Units covered: 7 and 8.

Observing the Moon and Eclipses Astronomy 311 Professor Lee Carkner Lecture 4.

Observing the Moon and Eclipses Astronomy 311 Professor Lee Carkner Lecture 4.

Slide 1 The Motion of the Planets The planets are orbiting the sun almost exactly in the plane of the Ecliptic. Jupiter Mars Earth Venus Mercury Saturn.

As Venus and Mercury orbit inside Earth’s orbit, they never get far from the sun and are visible in the west after sunset or in the east before sunrise.

The Earth-Moon-Sun System

Eclipses What is the length of time from a new moon to the next new moon? 29.5 Earth days Moon rotates and revolves around the Earth every 27.3 days.

Sponge: What two factors cause the seasons on Earth?

Astronomical Observations Eclipses. Information About Eclipses Definition Schedule Terms Reasons.

The Earth and the Moon The Moon is our nearest neighbour. It crosses the sky at ~12º per day, or its own diameter (~30 arc minutes) in ~ 1 hour.

CHAPTER 1: Discovering the Night Sky.

NATS From the Cosmos to Earth Our first exam will be next Tuesday, September 23 at the regular class time. We will have a review Thursday (Sept.

BELLRINGER Explain in complete sentences what

THE MOON. REVOLUTION AND ROTATION Relative to stars, Moon moves eastward by about 13° per day. Eastward motion is faster than that of Sun; meaning Moon.

Earth Science 22.2B Motions Earth-Moon System

Seasons, Phases of the Moon and Eclipses Chapter 2.2 & 2.3.

 The lunar phases are caused by the changes in how much of the illuminated (sunlit) side of the moon faces Earth.  Half the moon is always illuminated!

Equinoxes and Solstices When the ecliptic and celestial equator intersect, day and night are each 12 hours long: the equinox. When the Sun reaches its.

Eclipses What is an eclipse? The total or partial obscuring of one celestial body by another. Eclipses occur when the moon’s orbit which is tilted becomes.

Solar and Lunar Eclipses. Eclipse: The total or partial obscuring of one celestial body by another… The obscuration can be either One celestial body blocking.

Phases, & Eclipses Chapter 1: Earth, Moon, & Sun.

Eclipses. The Sun and Moon occasionally line up so that we have an eclipse. Revolution of the moon causes eclipses. An eclipse is defined as an astronomical.

Chapter 1: Earth, Moon, & Sun

The Earth, Sun, and Moon.

Ch Movements of the Moon. From earth, moon appears to orbit the earth, but from space, earth and moon orbit each other as they go around the sun.

A look at our nearest neighbor in Space! The Moon Free powerpoints at

Eclipses Lunar and Solar Eclipses. Sun and Moon have almost the same angular diameters Each subtend an angle ~ ½ degree Sun is 400 times larger than the.

Moon’s phases.  Eclipse: it occurs when one object in the night sky makes another object less visible.  The moon moves through space into ways. The.

CHAPTER 3 Eclipses and the Motion of the Moon CHAPTER 3 Eclipses and the Motion of the Moon.

1. annular eclipse - the moon is not close enough to the earth to completely block the sun, so the sun rings the moon.

Eclipses and the Motion of the Moon

Eclipses. Solar Eclipse A solar eclipse happens when the moon blocks the light from the Sun from reaching the Earth People who live in the umbra of the.

The Moon and Moon Phases

1 Eclipses - Understanding Shadows An eclipse occurs when one astronomical object casts a shadow on the other. Solar Eclipses – The Sun casts a shadow.

Note that the following lectures include animations and PowerPoint effects such as fly-ins and transitions that require you to be in PowerPoint's Slide.

Eclipses - Understanding Shadows

ASTR 111 – 003 Fall 2007 Lecture 02 Sep. 10, 2007 Introducing Astronomy (chap. 1-6) Introduction To Modern Astronomy I: Solar System Ch1: Astronomy and.

ASTR 111 – 003 Fall 2006 Lecture 03 Sep. 18, 2006 Introducing Astronomy (chap. 1-6) Introduction To Modern Astronomy II Ch1: Astronomy and the Universe.

Note that the following lectures include animations and PowerPoint effects such as fly ins and transitions that require you to be in PowerPoint's Slide.

Motion of the Moon. Moon shines not by its own light but by reflected light of Sun  Origin of the phases of the moon Moon revolves around the Earth period.

Eclipses. What is an eclipse? The partial or total blocking of one object in space by another When the moon or Earth casts a shadow on the other It can.

Solar Eclipses Solar Eclipse – Moon passes directly in front of the sun.

Universe Tenth Edition Chapter 3 Eclipses and the Motion of the Moon Roger Freedman Robert Geller William Kaufmann III.

SOLAR ECLIPSE One consequence of the Moon's orbit about the Earth is that the Moon can shadow the Sun's light as viewed from the Earth (2)

Lunar Motions Rotation, Orbit, Eclipse “Seasons” And the Annular Eclipse.

Discovering the Universe Eighth Edition Discovering the Universe Eighth Edition Neil F. Comins William J. Kaufmann III CHAPTER 1 Discovering the Night.

Eclipse ! Hey! You’re blocking my light!. Eclipse Terminology Solar vs. lunar Solar vs. lunar Total, partial, annular Total, partial, annular Umbra, penumbra,

Lunar & Solar Eclipses. The moon's orbit around Earth is slightly tilted with respect to the orbit around the sun. As a result, the moon travels above.

2  Explain the conditions required for different types of lunar and solar eclipses.  Distinguish between different types of eclipses (partial, total,

Eclipses and the Motion of the Moon Chapter Three.

Motions of the Moon, Phases and Eclipses (Ch 3)

Solar and Lunar Eclipses

Astronomy 04 The Solar System

Chapter 3: Cycles of the Sky.

Rotation, Orbit, Eclipse “Seasons” And the Annular Eclipse

Solar and Lunar Eclipses

Chapter 3 Cycles of the Moon.

Section 2: Movements of the Moon

Rotation, Orbit, Eclipse “Seasons” And the Annular Eclipse

Note that the following lectures include animations and PowerPoint effects such as fly ins and transitions that require you to be in PowerPoint's Slide.

The Motion of the Moon Unit 0.4.

Rotation, Orbit, Eclipse “Seasons” And the Annular Eclipse

Presentation transcript:

Chapter 9 The Moon

Why does the Moon keep the same face turned toward the Earth Revolution and rotation – The moon moves eastward 13 degrees per day, it also moves east in relation to the sun…which means that moonrise and moonset grow later throughout the month The Month – It takes the moon days to go through the lunar phases and return to the starting position relative to the sun (synodic) – It takes the moon days to return to position relative to the stars, this would be one complete orbit around the earth (sidereal)

Figure 09_01

Why does the Moon keep the same face turned toward the Earth Synchronous Rotation – The moon revolves around the earth in days, the moon rotates on it axes every days…This means we always see the same side of the because it is always turning towards the earth – If you lived on the moon and lived on the near side, the earth would go through phases and be in the same location of the sky all the time. – If you lived on the far side, you would never see the earth. – Daytime would last days on the moon

Figure 09_02a

Figure 09_02b

What causes eclipses of the Sun and the Moon? How can we predict eclipses? The orbit and size of the moon – The moon has an elliptical orbit, with an average distance of 384,400 km…Perigee is 356,400 km and apogee is 406,700 km – The moon obits on the ecliptic plane and since the earth is tilted in its orbit, this means the moon crosses north (ascending node) and south (descending node) of our equator – Refer to table 9.1 on page 184

Figure 09_04

What causes eclipses of the Sun and the Moon? How can we predict eclipses? Eclipses – 184 – It can take an hour for the moon to cover the sun, as the total eclipses approaches and the moon covers the sun Baily’s Beads appear – Then finally the diamond ring as the moon completely covers the sun, then the total phase of the eclipse has begun – Then all that is seen is the Sun’s Corona, it may even be possible to see a prominence or two – Totality never last longer then 7.66 minutes

Figure 09_06

Figure 09_07

What causes eclipses of the Sun and the Moon? How can we predict eclipses? Eclipses as omens – 186 – First lunar eclipse was record by the Mesopotamians 4000 years ago, the Chinese record the first Solar eclipse a few hundred years later – People would amazed and feared such events to the point that it saved peoples lives, changed the outcomes of wars, and in some case changed politics – Even people who could predict eclipses would not completely understand them

Figure 09_10

What causes eclipses of the Sun and the Moon? How can we predict eclipses? Eclipses and shadows – 186 – The umbra is the inner part of the shadow that completely covers the sun – Penumbra only offers partial coverage of the sun – In the earth’s penumbra though light is still reflected onto the moon, light is bent to the red – an annular eclipse is when the sun appears as a ring

Figure 09_12a

What causes eclipses of the Sun and the Moon? How can we predict eclipses? Eclipses and Lunar Phases – 187 – Eclipses only occur when the earth, sun and moon are in perfect alignment. Therefore eclipses can only occur during a full moon or new moon phase – A solar eclipse occurs when the earth passes through the moon’s shadow. (new moon) – A lunar eclipses occurs when the moon passes through the earth’s shadow. (full moon)

What causes eclipses of the Sun and the Moon? How can we predict eclipses? Umbral shadows and eclipses tracks – (lunar Eclipse)The earth’s umbral is 1,380,000 km in length, 9,200 km across and extends beyond the moons orbit. The moon takes 3 hours to travel through it and is in totality for about 100 minutes – (Solar Eclipse)The moons umbral is 371,000 km (average distance of 384,400 km…Perigee is 356,400 km) at largest 270 km across, people on the eclipses track will see a total eclipses – Longest eclipses is 7min 40 sec….average is 2 to 3 minutes…covers 10,000 km and 150 km wide

What causes eclipses of the Sun and the Moon? How can we predict eclipses? Predicting eclipses – The moon must be near a node to cause an eclipse, therefore the node must point toward the sun….eclipse season last for one month and happens every 5.7 months…the most you can have in a year is 7 – Every 18 years days the same eclipse will happen…but is shift.33 the distance on the earth surface...which means 54 years 1 month for it to happen at the same location – Page 192 figure 9.16