1 Tides Newton's gravitational force law says that the force of gravitation attraction depends strongly on the separation between two objects. The same.

Slides:

Advertisements

Similar presentations

Unit F, Chapter 1, Section 1 pF6-11

Advertisements

Earth and Gravity.

Orbits Tides The Universal Law of Gravitation. Announcements Test #1 is next Wednesday: Do not leave today without the Study Guide/Crossword puzzle. Monday.

The Cycles of the Moon.

Gravity. Review Question What are Kepler’s laws of planetary motion?

Tides. Gravity Earth’s gravity holds water to the surface. With no moon, sea level would be the same everywhere. The Moon’s gravity pulls Earth and its.

Earth Science: 16.2B Tides Tides.

1 Tides We experience tides on Earth when the ocean level rises and falls. We experience 2 high tides and 2 low tides in a little over one day. But what.

ASTRONOMY 161 Introduction to Solar System Astronomy Class 8.

Guided Notes about the Moon and the Tides

Essentials of Oceanography

If the moon had the mass of a golf ball, the sun would have the mass of about 110 school buses! Although the moon is much smaller than the sun is, the.

9/14/12 Jim out today – if needed. Remember – exam on Monday. Extra office hour Monday at 10am for last minute questions.

Chapter 3 The Cycles of the Moon.

Chapter 4 Making Sense of the Universe: Understanding Motion, Energy, and Gravity.

The Earth-Moon-Sun System SNC1D. The motion of the Moon The Moon revolves around the Earth in a nearly circular orbit.

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.

Goal: To understand gravity Objectives: 1)To understand who discovered what about gravity. 2)To learn about the Universal nature of gravity 3)To explore.

The Moon The moon’s light. The sun’s light is reflected off of the moon’s surface. The different colors on the moon’s surface are caused by the different.

Chapter 9 Gravity The Earth Sucks 1.THE UNIVERSAL LAW OF GRAVITY 4From Law 3 of Kepler, Newton deduced the inverse square law of attraction. 4Newton.

The Moon part deux Goal: To understand the interactions between the earth and the moon. Objectives: 1)To understand Eclipses – solar and lunar 2)To learn.

Chapter 4d Making Sense of the Universe: Understanding Motion, Energy, and Gravity “ If I have seen farther than others, it is because I have stood on.

Universal Gravitation Chapter 8. Isaac Newton and Gravity Newton realized an apple falls because of force Moon follows circular path, force needed Newton.

Chapter 1 Earth, Moon, and Sun Section 3 Phases, Eclipses, and Tides.

Chapter 3 Section 1 The Phases of the Moon. The Motion of the Moon 2 things about motion of the moon: We see it moving eastward against the background.

Tides Tides and the Moon. It’s the Difference… …in Gravity Gravity obeys the inverse square law. so The Moon’s gravity pulls harder on the water on the.

Bell work If the moon had the mass of a golf ball, the approximate mass of the sun would be about 110 school busses! Even though the moon is smaller than.

Tides, Tidal Friction, and Synchronous Rotation. Why do tides occur?

Tides. What are they: Tides are daily changes in level of ocean surface. Discovered by Sir Isaac Newton. Causes: Gravitational pull of the moon and sun.

Tides- are very long-period waves that move through the oceans in response to the forces exerted by the moon and sun. –Originate in the oceans and progress.

Why Are There Tides? The tides are caused by the gravitational pull of the moon and sun and by the rotations of the earth, moon, and sun. The Earth and.

Our Place in the Cosmos Lecture 8 Non-Circular Orbits and Tides.

Origin  Several theories  Gravity, same formation material, Earth’s residual material  Most popular – impact/collision theory ** billions of years.

Chapter 4: Gravity and Orbits

What is Gravity? Gravity is an attraction that acts between any two objects that have a mass. Gravity is an attraction that acts between any two objects.

Essential Question: What causes tides in the oceans?

Tides are periodic rises and falls of large bodies of water. Tides are caused by the gravitational interaction between the Earth and the Moon. The.

Introduction To Tides Bay of Fundy Nova Scotia, Canada The Worlds Lowest and Highest Tides.

TIDES. Tides  Tides are long period waves that move in the ocean in response to the gravitational force of the sun and the moon.  Tides originate in.

What is a Tide? A tide is the rise and fall of the surface level of a body of water due to the Moon’s and the Sun’s gravitational pull.

Gravity and Motion The strength of the force of gravity between two objects depends on two factors: the mass of the objects and the distance between them.

8-4.7 :: Explain the effects of gravity on tides and planetary orbits.

1 Gravity and Tides Horribly not to scale!!! ● Tides result from the differential gravitational force across a finite sized object. ● simply put, the near.

What is Gravity? Gravity is an attraction that acts between any two objects that have a mass. However, this is only significant if one or both of the.

4.4 & 4.5 Gravity, Tides and Orbits. Newton discovered that gravity is universal. Everything pulls on everything else in a way that involves only mass.

Tides What are they? What are they caused by? Are there different kinds of tides?

The Moon & Tides (77). Tides Moon and sun contribute to the ocean’s tides. Gravity pulls the ocean water slightly & causes it to bulge out toward the.

Review Question What is retrograde motion?. Review Question Explain why the phases of Venus proved to Galileo that Venus must orbit the Sun when the Moon.

Tides and the moon What causes tides?

Tides. Bay of Fundy ► Boats can only travel at higher tides ► Some of the highest tides in the world.

 Alternating rise and fall of sea level within one day.  They are caused by gravitational attraction of sun and moon on Earth.  Causes water of ocean.

Moon Notes Day 3 Chapter The changeable moon The moon appears to us to move eastward The markings on the surface of the moon do not seem to change.

The Tides. Tides on Earth A tidal force is the difference in gravity from one side of a body to the other that is exerted by a 2nd object. The Moon exerts.

Unit 3 Lesson 2 Moon Phases and Eclipses. Round and Round They Go! How are Earth, the moon, and the sun related in space? Earth spins on its axis and.

“To infinity and beyond!” -Buzz Lightyear. How Big Is The Universe?  Journey To The Edge of The Universe ~10 min. Journey To The Edge of The Universe.

The Worlds Lowest and Highest Tides

Chapter 7 The Moon.

Our Moon 4.5 Billion Years Ago

Chapter 7 The Moon.

Gravitational Forces 8.E.4B.2 Construct explanations for how gravity affects the motion of objects in the solar system and tides on Earth.

Newton’s Version of Kepler’s Third Law

Gravity, Tides and Orbits

4.4 The Universal Law of Gravitation & 4.5 Orbits, Tides & Gravity

6.6 Tides Tides and the Moon.

Tides We experience tides on Earth when the ocean level rises and falls. We experience 2 high tides and 2 low tides in a little over one day. But what.

The Moon and Earth.

Presentation transcript:

1 Tides Newton's gravitational force law says that the force of gravitation attraction depends strongly on the separation between two objects. The same applies to different portions of an extended object like the Earth or the Moon.

2 Tides The Earth (and the more flexible oceans) are stretched between these differing forces raising tidal bulges both toward and away from the Moon Too much pull – Earth is stretched toward the Moon Too little pull – Earth bulges away from the Moon

3 Tides The Earth (and the more flexible oceans) are stretched between these differing forces raising tidal bulges both toward and away from the Moon Too much pull – Earth is stretched toward the Moon Too little pull – Earth bulges away from the Moon

4 Tides The more-flexible water gets stretched more than the solid Earth. These ocean tides remain aligned with the Moon while the solid Earth rotates through them. Locations typically experience two high tides a day.  Tides are more complicated because of the sloshing due to land- masses getting in the way. Too much pull – Earth is stretched toward the Moon Too little pull – Earth bulges away from the Moon

5 Bay of Fundy, Canada

6 An Alternative View of Tides Objects orbit their common center of gravity (technically the “barycenter” of their orbit. Tides are all about the balance between gravity and centrifugal force – like a ball on a string. These forces balance at the center of the Earth.  Closer to the Moon the Moon's gravity wins – extra tugging  Farther from the Moon the Moon's gravity is insufficient to counter the centrifugal force – extra “flinging” The Earth gets stretched between these two forces.

7 The Sun's Role in Tides The Sun also has significant gravitational influence on the Earth. It is much further away than the Moon, but also much more massive. Solar tides are about 1/3 the strength of Lunar tides. When the Sun and Moon align (New and Full Moon) tides are higher than when they raise tides in different directions (First and Last Quarter Moon).

8 The Sun's Role in Tides The Sun also has significant gravitational influence on the Earth. It is much further away than the Moon, but also much more massive. Solar tides are about 1/3 the strength of Lunar tides. When the Sun and Moon align (New and Full Moon) tides are higher than when the raise tides in different directions (First and Last Quarter Moon). Note that planetary tides, often invoked by nutcase theories of global doom from planetary alignment, are vanishingly insignificant compared to the Sun and Moon. Jupiter's tidal force on Earth is 1/100,000 th that of the Sun's.

9 Tides and the Slowing of Earth's Rotation Since the Earth spins faster than the Moon orbits the Earth tries to drag its tidal bulges out of line with the Moon the Moon, in turn, trys to pull them back into alignment.  The consequence is that Earth rotation is slowing and the Moon is getting farther from the Earth.

10 Yellow arrows = bulk gravitational attraction between Earth and Moon

11 Focus on the “near” tidal bulge – it feels a slightly greater force than the “far” one. The green arrows represent the gravitation pull between the Moon and the material in this tidal bulge. The direction of this pull works against the direction of Earth's rotation, slowing down the rotation of the Earth.

12 The pull of the tidal bulge on the Moon can be decomposed into a component directed toward the center of the Earth and a component directed along the Moon's orbit. The component directed along the Moon's orbit gives the Moon a boost as if it had a rocket engine attached – moving it further from the Earth over time.

13 The Changing Day Due to tidal effects the day gets about 1 second longer every 50,000 years. About 300 million years ago the day was only 22 hours long. The day will be 25 hours long in another 150 million years. The second was defined using measurements from more than 200 years ago. Using this “stale” second, The Earth runs slow enough that we have to add a leap second into timekeeping every couple of years.

14 Consequences for the Moon Tidal coupling moves the Moon a few centimeters further from the Earth each year. Although small, this effect is measured to great accuracy with pulses of laser light bounced off of retro-reflectors on the Moon.

15 Consequences for the Moon Tidal coupling moves the Moon a few centimeters further from the Earth each year. The Moon was once much closer – maybe 1/20 th it's current distance. We live in the last era where total solar eclipses are possible.  Total eclipses are becoming increasingly less frequent.  soon (in about 100 million years) all central eclipses will be annular.

16 Consequences for the Moon Tidal coupling moves the Moon a few centimeters further from the Earth each year. The Moon was once much closer – maybe 1/20 th it's current distance. We live in the last era where total solar eclipses are possible.  Total eclipses are becoming increasingly less frequent.  soon (in about 100 million years) all central eclipses will be annular.

17 Consequences for the Moon The Moon's rotation has “stopped” relative to the Earth The Earth was even more effective at slowing the Moon's rotation.  Although it may have originally spun rapidly, the Moon is now in a state where it turns at the same rate that it orbits the Earth.

18 Consequences for the Moon The Moon's rotation has “stopped” relative to the Earth This “tidal locking” is the natural end state of a planet/moon system. Even now, the Moon is slowing the Earth's rotation toward the goal of the Earth always keeping the same face toward the Moon. Once an object is in “synchronous rotation” it's tidal bulges remain aligned and there is no more tidal friction.

19 Consequences for the Moon From Earth we can only see one side of the Moon.

20 The Dark Far Side of the Moon From Earth we can only see one side of the Moon. The other side of the Moon (which has 2-week long days just like the near side) was not observed until the Space Age. X

21

22