WHAT’S UP OR DOWN WITH APOPHIS?

Slides:

Advertisements

Similar presentations

J Our Solar System Mr. Harpers science Mini lesson with audio Click on the speaker icon to hear the words.

Advertisements

Deflecting APOPHIS with a Flotilla of Solar Sails Jean-Yves Prado Olivier Boisard, Alain Perret,Guy Pignolet U3P France.

7.5 Other Objects In the Solar System (Pages ) Homework: Page 306 # 1, 3, 7, 8 Key Concepts: (Page 306)

Investigating the Near-Earth Object Population William Bottke Southwest Research Institute William Bottke Southwest Research Institute.

Rusty Schweickart Chairman, NEO Committee Association of Space Explorers Solutions to Earthly Problems? The Future of Space Exploration 13 April 2007.

Lesson 2 The Earth-Sun-Moon System

What are the odds of an asteroid or comet hitting the Earth? Has this happened in Earth’s past? What would happen to Earth’s civilization in the event.

Chapter 8, Astronomy. Identify planets by observing their movement against background stars. Explain that the solar system consists of many bodies held.

Newton’s Law of Gravitation and Kepler’s Third Law We showed already this week that Newton was able to prove Kepler’s third Law, the Harmonic Law, from.

The Estimated Population of Small NEOs Alan Harris MoreData! Inc. Target NEO 2 Washington, DC, July 9, 2013.

Promoting Cooperative Solutions for Space Sustainability swfound.org ©2013 Secure World Foundation. Used with Permission Near Earth Object Overview Agnieszka.

Potentially Hazardous Asteroids: Characterization, Atmospheric Entry and Risk Assessment 9 July 2015 Ames Research Center Moffett Field, California IAWN.

Chapter 9 Remnants of Rock and Ice Asteroids, Comets, and Pluto.

Space Asteroids Raynaldo 6B.

Rusty Schweickart Chairman, ASE-NEO Committee Chairman, B612 Foundation ASE and the Geopolitics of NEO Deflection and Mitigation ASE XXII Planetary Congress.

Other Objects in Our Solar System LEQ: What are the characteristics of members in our solar system?

Summary of Issues Relating to the Orbits of Near-Earth Objects  Don Yeomans and Jon Giorgini (NASA NEO Program Office)  September 2007 Potentially hazardous.

Clark R. Chapman Rusty Schweickart B612 Foundation Clark R. Chapman Rusty Schweickart B612 Foundation “1 st IAA Planetary Defense Conference” Granada,

Linda Billings, Ph.D. Consultant to NASA’s Near Earth Object Observation Program, NASA HQ

The Beginnings … Of the Universe & Our Solar System.

The Solar System: An Insider’s Guide Friday! What Lies Beyond? Small Bodies and Extrasolar Planets.

Chapters 7 and 8: Projectiles and Gravity. Gravity is a force of attraction between objects. We're not talking about finding someone really cute and adorable.

© 2017 Pearson Education, Inc.

Newton’s laws & gravity & tides

How can discussions help scientist clarify scientific information?

Lindley Johnson Near Earth Object Programs Executive NASA HQ

Newton’s Universal Law of Gravitation

Defending Planet Earth

Welcome… to ASE WS#3 & Earth University.

The Solar System and Planetary Motion.

Comets, Asteroids, Meteoroids,

Reference impact scenarios – an example

The Dwarf Planet Pluto Dr. Harold Williams Montgomery College Planetarium

Big Idea: Objects can affect other objects at a distance

Our Solar System By: Anthony

ИПА РАН New opportunities of the computing-analytical complex for predicting collisions of the Earth with asteroids and comets and creating scenarios of.

Using the GAVRT Radio Telescope: The SETI Project

Using Light Curves to Find Rotation Period of Asteroids

Chapter 7 The Moon.

Types of Galaxies Asteroids Meteors, Meteoroids, and Meteorites Comets

How have Theories of the formation and structure of the universe changed? Instructional Approach(s): Introduce the essential question and the standard.

The Solar System How many words related to the solar system do you know? Complete a solar system word scramble! Using these 24 letters, ( don’t repeat.

Physics 112 Star Systems Lecture 18 The Debris Kevin H Knuth

A Modern View of the Universe

Space Exploration SPACE.

After School Astronomy Clubs Dorian Janney

Other Objects in our Solar System

Distances in Astronomy

Chapter 7 The Moon.

Bodies in the solar system; orbit the Sun.

Asteroids, Comets, and Meteoroids

GRAVITY AND SPACE In This Topic We Will Learn About:

Weekly Sight Words List 13.

After School Astronomy Clubs Dorian Janney

Comets, Asteroids, Meteoroids,

Asteroids Lab 10.

The Sun-Earth-Moon System

Shooting Star?.

5th International Asteroid Warning Network (IAWN) Meeting

Planetary Orbits Recall eccentricity e defined by:

Asteroids, Comets, Meteoroids

How Big Are They/ Kuiper belt The Kuiper Belt is a disk-shaped region past the orbit of Pluto extending roughly from 30 to 50 AU from the Sun containing.

Forces in Space.

Forces in Space.

NEAs Near Earth Asteroids are large rocks in space that cross the orbit of Earth. Sometimes they are called NEOs (O = objects). Many have been discovered,

PLANETARY MOTION.

9.4 Cosmic Collisions: small bodies vs. the planets

Presentation transcript:

WHAT’S UP OR DOWN WITH APOPHIS? AN OPEN CASE OR CASE CLOSED? By Leonard David Workshop on Communicating About Asteroid Impact Warnings and Mitigation Plans September 9 – 10, 2014

Entering the Land of the Unknown

HISTORY Aten-type Asteroid (99942) Apophis was discovered by R.A. Tucker, D.J. Tholen and F. Bernardi at Kitt Peak, Arizona on June 19, 2004. After rediscovery by G.J. Garradd at Siding Springs, Australia in December 2004 it was recognized as a potentially hazardous asteroid with a significant Earth impact probability in April 2029. Arecibo radar observations in January 2005, August 2005 and May 2006 significantly reduced Apophis’ orbital uncertainty and ruled out the 2029 impact (the minimum nominal distance from the geocenter in 2029 was computed to be 6 Earth radii)…But other potential impacts in following decades were revealed.

Harris, et al New and extensive photometric observations of Apophis have allowed researchers to determine its tumbling spin state Yarkovsky effect contains values for the keyhole of resonant return leading to Earth impact on 2068 April 12. However, there are modeling uncertainties.

Harris, et al Further astrometric and radar observations in 2020–2021. Apophis impact probability still remains very small and it will likely drop to zero when the orbit determination is improved in 2021. The study of its spin state and of the population of slowly tumbling asteroids in general is important.

The Case of Apophis: Lessons Learned Asteroid astronomers and space agencies as “risk communicators” and “disaster managers”: we must do better! Even an impact threat decades away may require near-term actions

The Case of Apophis: Lessons Learned There’s need to institutionalize the impact hazard into the structures of national and international disaster management agencies. Need to further standardize our own procedures, and we must know how and when to report up the chain-of-command and to the public, if the threat warrants it.

The Case of Apophis: Lessons Learned December 2004: Back in its 2004 MN4 days, Apophis was a real concern, *real* concern, for a few days while the media were all off for Christmas holiday. Following the MN4 2029 impact probability of ~1:27, observational revisit work dropped the impact probability in 2029 to zero…but left the possibility of a keyhole passage then with subsequent impact in 2036.

The Case of Apophis: Lessons Learned Remaining now is a 1:256,000 chance of an impact in 2068 as a result of the 2029 close pass and potential keyhole passage. The media never seemed to get that while MN4 initially looked *very* threatening, the 2029 potential impact immediately disappeared back ~27 Dec 04.

The Case of Apophis: Lessons Learned The media never seemed to catch up with the fact that Apophis has never been a really serious concern since…while at the same time it was (has been) perhaps one of the most important NEOs in our history of study since it introduced the whole keyhole issue.

The Case of Apophis: Lessons Learned The media has never gotten keyholes… their significance or their physics (astrodynamics) And that’s pretty understandable since there are many technical people, scientists, astronomers, who don’t understand/get it. Let alone the public!

The Case of Apophis: Lessons Learned Criticism: The media tend to feed off each other rather than to go to the few people who could legitimately inform them…to help reporters understand the evolution of understanding regarding the NEO threat issue.

The Case of Apophis: Lessons Learned None of the NEOs on the JPL risk page simply go away… until (on rare occasion) they pass close by some other planet like Venus or Mars or Jupiter. Until then they will continue to circulate in an Earth crossing orbit until they hit Earth.

The Case of Apophis: Lessons Learned While coming close to the Earth changes their orbits, they will come right back in this new orbit, again and again. It takes either an impact, or an encounter with a distant planet to “eliminate” them as a NEO.

MESSAGES FOR THE MASSES HANDLING ASTEROIDS REFLECTS ON SPACE PROGRAMS OVERALL MEDIA “LIKES” APOCLAYPSE-NOW SCENARIOS …BUT THERE IS A DIVERSE RANGE OF “MEDIA” OUTLETS – FROM SCIENTIFIC TO BLOGMANIA

Wonder Woman – Love those rings! Planetary Defense Gravity Tractor Nuke ‘em Laser blast Paint them Hit by impactor Nudge them Rope and pull them away Wish them away Or….?

Space Politics

“ARM” WAVING

New Technology

Controlling the Future

SILENCE OF THE SLAMED Planetary Defense is a one-to-one proposition There may be a reason why SETI-listeners don’t hear neighbors. There are few and far-between civilizations that have survived the “natural” in-fall of cosmic debris. A sterilization factor snuffs out civilizations – as will be the case for Earth?

When the Big One Hits!

Special thanks for assistance in preparing this material goes to: Special thanks for assistance in preparing this material goes to: Clark Chapman,"Rusty" Schweickart, and Alan Harris