Beyond the Solar System: Exploring Galaxies, Black Holes, Alien Planets, and More; A History with 21 Activities

Beyond the Solar System: Exploring Galaxies, Black Holes, Alien Planets, and More; A History with 21 Activities

3.0 2
by Mary Kay Carson
     
 

View All Available Formats & Editions

Tracing the evolution of humankind’s pursuit of astronomical knowledge, this resource looks deep into the furthest reaches of space. Children will follow along as the realization that the Earth is not at the center of the universe leads all the way up to recent telescopic proof of planets orbiting stars outside the solar system. In addition to its engaging

Overview

Tracing the evolution of humankind’s pursuit of astronomical knowledge, this resource looks deep into the furthest reaches of space. Children will follow along as the realization that the Earth is not at the center of the universe leads all the way up to recent telescopic proof of planets orbiting stars outside the solar system. In addition to its engaging history, this book contains 21 hands-on projects to further explore the subjects discussed. Readers will build a three-dimensional representation of the constellation Orion, see how the universe expands using an inflating balloon, and construct a reflecting telescope out of a makeup mirror and a magnifying glass. It also includes small biographies of famous astronomers, a time line of major scientific discoveries, a glossary of technical terms, and dozens of full-color images taken by the Hubble Space Telescope and the Chandra X-Ray Observatory.

Editorial Reviews

Publishers Weekly
Carson follows 2008’s Exploring the Solar System with an in-depth study of humankind’s history with the stars above, from prehistory to the present. The book covers early studies of the heavens, the development of telescopes and other tools, changing schools of thought on the universe and how it works, and contemporary efforts to discover what lies beyond our solar system. Vocabulary terms appear in bold, and sidebars offer brief biographies of figures including Kepler, Newton, and Einstein; color photographs of galaxies and nebulas appear throughout, many from the Hubble Space Telescope. A comprehensive combination of astronomical history and science, with activities that should encourage curiosity and involvement. Ages 9–up. (June)
From the Publisher

"A highly readable text . . . teachers may find these 21 activities especially helpful, but handy readers can follow these clear directions on their own. This is a useful path for budding space scientists."  —Kirkus Reviews

"A fast-paced, but worthwhile, tour of the history of astronomy. Carson shows unusual finesse in communicating the methods and significance of scientific breakthroughs . . . Notable for its unusually clear explanations of complex topics, this volume is a worthy companion to Exploring the Solar System."  Booklist

“A comprehensive combination of astronomical history and science, with activities that should encourage curiosity and involvement.”  —Publishers Weekly

"This volume is a great reference tool for astronomy lovers. The combination of history with hands–on activities is a novel approach that would certainly entertain and engage middle school students and beyond. The photos on the glossy pages are eye-catching and the diagrams come with great explanations . . . this volume would make a great resource for a school library or the library of a budding astronomer."  —National Science Teachers Association (NSTA) Recommends

"This inviting and informative comprehensive survey will be useful for homework assignments and may send young scientists to further studies of astronomy."  —School Library Journal

"The activities are perfect 'boredom busters' for cold winter days."  —Washington Post

"The book stands out from other introductions to the field because of the activities, all of which use simple and easy-to-find materials."  —Science Magazine

"I would recommend this book to all children who have a passion for learning, not just about the night sky, but all aspects of our scientific history. The many illustrations and activities only enhance the reader's understanding of the subject matter and enable him or her to be challenged to learn more, and hopefully one day to join the ranks of the great people documented in the book."  —National Space Society

"Scientific terms and concepts are clearly explained in context, and Carson’s lucid writing makes difficult-to-grasp ideas manageable. The pages are packed with colorful reproductions, crisp photos, charts and diagrams, and dazzling NASA images." —School Library Journal

School Library Journal
Gr 5–8—Beginning with a two-page time line spanning prehistory to 2009, this chronological survey of astronomy covers early observations and discoveries, concentrating on modern findings. Beautiful color photographs of space engage readers from the first page. Drawings and diagrams expand upon theories, and illustrations of Galileo, Newton, and William and Caroline Herschel put faces on these prominent scientists. Activities relevant to each chapter, are sprinkled throughout the book, such as making an astrolabe from string; creating a three-dimensional starscape to demonstrate the distances between the stars in a constellation; inflating a balloon covered with stickers representing stars to measure the changing distances in an expanding universe, and more. The three-page glossary provides short definitions of terms (e.g., "eclipse," "dark matter," etc.), and many of these terms are listed in the five-page index and take readers to specifics. For example, the observations and photographs of the 1919 total eclipse of the sun revealed the bending of light around the dark sun, thus validating Einstein's theory of relativity. The resources section lists astronomy websites, sky watching and star-chart sites, and books for further reading. This inviting and informative comprehensive survey will be useful for homework assignments and may send young scientists to further studies of astronomy.—Frances E. Millhouser, formerly with Fairfax County Public Library, VA
Kirkus Reviews
Science writer Carson goes beyond the planets she described in Exploring the Solar System (2006) to survey the history of stargazing from antiquity to near–present day. Organized chronologically and moving rapidly to the 20th century, her history stresses key scientists and their discoveries. She includes the usual suspects, such as Ptolemy, Galileo, Newton, Einstein and Hubble, as well as a number of lesser-known astronomers and astrophysicists, including some women and some working today. From early proofs that planets circled the sun to the discovery of quasars, pulsars, black holes and far-distant planets, this demonstration of the growth of human awareness about the universe concludes with the reminder that what we do know is far, far outweighed by what we don't. A highly readable text is supplemented with diagrams, photographs and black-and-white illustrations, as well as biographical text boxes. Each chapter also includes step-by-step instructions for three or four hands-on activities that can support learning. From suggestions for observing the night sky or building a telescope to demonstrations of the expanding universe and the warping of the space-time fabric, teachers may find these 21 activities especially helpful, but handy readers can follow these clear directions on their own. Escaping our solar system is not easy, as Voyager has shown, but this is a useful path for budding space scientists. (glossary, resources, index) (Nonfiction. 10-14)

Product Details

ISBN-13:
9781613745472
Publisher:
Chicago Review Press, Incorporated
Publication date:
06/01/2013
Series:
For Kids Series
Sold by:
Barnes & Noble
Format:
NOOK Book
Pages:
144
File size:
7 MB
Age Range:
9 Years

Related Subjects

Read an Excerpt

Beyond The Solar System

Exploring Galaxies, Black Holes, Alien Planets, and More: A History with 21 Activities


By Mary Kay Carson

Chicago Review Press Incorporated

Copyright © 2013 Mary Kay Carson
All rights reserved.
ISBN: 978-1-61374-547-2



CHAPTER 1

Prehistory-1600: Stargazers to Scientists


People have been exploring the universe for thousands of years. Even cavemen gazing up at the stars were investigating what lay beyond — in their own way. Early humans believed they lived on a flat world. Each day, a godlike sun crossed the sky overhead. The night sky was filled with traveling lights and a changing moon. Ancient people were wrong about Earth's pancake shape, and they didn't have a clue about black holes. But this didn't keep them from putting what they did know about the universe to very good use.

The Sun, moon, and stars appear to move, disappear, and reappear in the sky in predictable patterns. Figuring out, tracking, and predicting these heavenly patterns made the first clocks, calendars, and navigation tools possible. The waning and waxing moon, as it changes from full to new to full again, marks the passage of 30 sunsets and sunrises — a lunar month. The stars, Sun, moon, and the planets rise and set not because they are moving, but because Earth is. Our mobile planet gives us a constantly changing view of what surrounds us out in space.

Earth's tilted posture as it travels around the Sun each year creates seasons by altering day lengths and the arc of the Sun's daily path across the sky. These changes announce the coming and going of seasons. Since prehistory, the changing seasons helped people know when it was time to plant or harvest, move to winter hunting grounds, or return to summer villages.

Stars, too, are seasonal calendars. Maybe you've noticed this yourself. The pattern of stars we call the Big Dipper changes position throughout the year. Its handle points up in summer and down in winter. Its cuplike end holds water in autumn and empties it in spring.


BIG BEARS, HUNTING GODS

The Big Dipper is part of a constellation called Ursa Major, or the Great Bear. Constellations are groups of nearby stars that people have named after the shapes they make. They are ancient star patterns and so have the names of ancient things — mythical characters and creatures, harps, dragons, unicorns, parts of sailing ships, and now-forgotten tools.

Ursa Major is one of the most ancient of constellations. Humans have recognized and named it for millennia. How do we know that? People in North America as well as Eurasia call the constellation the Great Bear — even though bears haven't lived in the Middle East and Mediterranean since the end of the last ice age! The Great Bear in the sky must have been recognized by northern peoples on both sides of the waterway that was once a frozen land bridge between Siberia and Alaska 15,000 years ago.

Ursa Major was, and is, an important constellation to know if you live in the Northern Hemisphere. Its Big Dipper points out the North Star and can help you find your way. Sailors and travelers can use the stars to navigate their way across oceans and deserts without landmarks.

Constellations also have calendar duties. Virgo, the Maiden, appears in the spring with an armful of grain, telling farmers it's time to sow crops — and watch out for floods. Orion, the Mighty Hunter, is a constellation that heralds winter. In the southern hemisphere, Orion announces summer and looks different since it's flipped over. The Yolngu aboriginal people of Australia call the star grouping Julpan, a canoe filled with brothers who have a fish on the line.


GREEKS, THE ORIGINAL SCIENCE GEEKS

By 1500 BC the Sumerians, Babylonians, Indians, Chinese, and Egyptians all had skilled observers of the heavens. These "star namers" (the meaning of the word astronomer) had important duties in ancient civilizations. But it was the ancient Greeks who put the science in what's celestial. They turned star naming into the science of astronomy.

Greece issued this stamp picturing Hipparchus and an astrolabe to commemorate the opening of the Eugenides Planetarium in Athens in 1965.


activity

Find Polaris

Because our planet moves around the Sun, our view of the backdrop of constellations constantly changes. Autumn night skies feature different stars than springtime ones. But Polaris, the North Star, doesn't move across the sky from season to season; it always remains above us and always points to the north. This is why Polaris has been used in navigation for millennia. Here's how you can spot the North Star for yourself.


YOU'LL NEED

Clear night sky

1. Find the Big Dipper. It's a star grouping in Ursa Major, a constellation in the northern hemisphere. Seven bright stars make up the Big Dipper in the northern or northwest sky. They form the shape of a dipper, or ladle, with a curved handle. Note: The Big Dipper's cuplike end is upright in autumn and overturned in spring, and its handle is pointed up in summer and down in winter.

2. Look at the cup end of the Big Dipper. The side of the cup farther from the handle is its "pouring edge." The two stars that make up this pouring edge of the Big Dipper will point you toward Polaris.

3. Imagine a line that connects the bottom pouring-edge star to the top one and then continues onward. The star that this imaginary line points to is Polaris, the North Star.


Hipparchus was born around 190 BC. He was a weather watcher as a young man, making records of rainfall and winds. For much of his life, Hipparchus spent his time on the Greek isle of Rhodes, observing the stars. He recorded the position, size, and brightness of many hundreds of stars. Another ancient Greek astronomer updated Hipparchus's work. Ptolemy (c. 100 AD–C.170) wrote the first astronomy textbook, called The Almagest. It had a catalog of all the known stars — more than 1,000. The book also explained why Earth is at the center of the universe.

An Earth-centered, or geocentric, view of the universe was already accepted among ancient Greek philosophers. The Greeks saw the universe as a series of nested shells. The stars were located in the outermost shell, rising and setting in the night sky as it turned around the Earth. The Sun, moon, and five known planets — Mercury, Venus, Mars, Jupiter, and Saturn — also orbited our motionless world. What Ptolemy added was an explanation that cleared up the theory's trouble spots. Until Ptolemy, no one could explain some of the movements of the five visible planets.


The word planet means "wanderer" because these lights in the night sky wander across the background of stars in odd ways — speeding up, moving backward, changing brightness, etc. The Ptolemaic system explained these oddities with mini-orbits within orbits, called epicycles. Mars, for instance, didn't just loop around Earth. It also moved in circles (its epicycle), bringing it a bit closer and farther from Earth as it looped around — sort of like a carousel ride on which you sit in a spinning car as the whole thing goes around. Ptolemy sealed the deal on his theory with some impressive and convincing geometry.

Few had trouble with the unmoving Earth aspect of Ptolemy's system. Humans don't feel Earth spinning or hurtling through space around the Sun. "Those who think it paradoxical that the Earth, having such a great weight, is not supported by anything and yet does not move, seem to me to be making the mistake of judging on the basis of their own experience instead of taking into account the peculiar nature of the universe," wrote Ptolemy.

Ptolemy tapped into the belief systems of the time. No one expected the heavens to play by the same rules as Earth. After all, the heavens were the domain of gods, goddesses, and forces that controlled lives and fates. Even though it was awkwardly complicated, the Ptolemaic system was popular for 15 centuries, or 1,500 years.


ALLAH'S PATH OF UNDERSTANDING

Ptolemy's ideas went far beyond Greece. He worked in the Egyptian city of Alexandria. Islamic and European astronomers through the 16th century accepted his theories as fact. The name of his book, The Almagest, is not even a Greek word. It comes from the Arabic name al-majisti, which means "the greatest." Ninth-century Arab translations of Ptolemy's book fueled Islamic astronomy. Meanwhile, The Almagest remained lost to Europe until the Dark Ages ended.


activity
Ptolemy on a Plate


Ptolemy's invention of epicycles made his Earth-centered system seem to work. Epicycles are the mini-orbits that the "planets" (not Earth) make around an invisible point as they circle Earth in orbits called deferents.

This system of epicycles within deferents is complicated. But it seemed right because it matched the observable movements of the planets in the night sky. The theory wrongly accounted for why Mars moves backward in retrograde or why Jupiter moves slower or faster depending on the time of year.

In this activity, you'll see for yourself how Ptolemy's grand illusion matched these variations in the night sky.

YOU'LL NEED

* Poster board, index card, or heavy paper
* Ruler
* Scissors
* Markers or colored pencils
* Small balls (optional)
* Glue (optional)
* 2 paper plates, one large and one small, or one large and one small circle of cardboard
* 2 brads (paper fasteners)
* Liquid correction fluid (optional)

1. Cut out a small circle from an index card or heavy paper about 2 inches (5 cm) in diameter. This circle represents an epicycle. Draw a red circle on its edge to represent Mars. If you're using the small balls, glue a small red ball near the edge of the circle. Label it Mars.

2. If your two plates are the same size, cut one down to make it slightly smaller than the other plate. Set the 2-inch-wide circle (5 cm) near the edge of the smaller plate. Push a brad through both plates and fold it back to attach them. Make sure it turns freely. This spinning circle is the epicycle on the edge of the deferent. (You can use liquid correction fluid to blot out the epicycle's fastener. It's an invisible point.)


3. The small plate is the deferent, Mars's orbit around Earth. Turn the large plate over, center the smaller plate on top of it, and push a brad through to attach them. Make sure it turns freely. The paper fastener in the center is Earth. Draw a little blue circle around it or glue down a blue ball. Label it Earth.

4. Put Ptolemy's universe into motion! Turn the larger deferent circle while simultaneously turning the epicycle. Think about being on Earth and how Mars would move in the night sky over time. Use a ruler or pencil to create a line of sight between Earth and Mars at different positions of the deferent's and epicycle's orbits.

One of the most important astronomers of this time was Abd al-Rahman al-Sufi. The Persian scientist spent years updating Ptolemy's star list for his own Book of Fixed Stars. Al-Sufi's star catalog named the stars differently than Ptolemy. The Greeks based star names on their constellations. An individual star might be referred to as "the top right star in constellation Lyra." Al-Sufi called this star Vega, giving each star its own Arabic name, separate from its constellation.


Abd al-Rahman al-Sufi (AD 903–986)

Isfahan, Persia, where al-Sufi lived his life, is today part of Iran. The Persian astronomer was known in Europe as Azophi, and his star map was used there for centuries. In his famous Book of Fixed Stars, the scientist cataloged 1,018 stars according to their brightness, positions, and colors.

Al-Sufi also recorded the first celestial object outside our galaxy in the book. Al-Sufi described and drew what we today know is the Andromeda galaxy. He called it "a little cloud" lying before the mouth of an Arabic constellation named the Big Fish.

Al-Sufi used a tool called an astrolabe to locate stars and other celestial objects. The instrument has movable parts to set the time and date and gives the observer a picture of how the sky looks at his or her latitude. Al-Sufi wrote about the many possible uses of the astrolabe, including timekeeping and navigation.


Many star names we use today are Arabic — Rigel, Fomalhaut, Aldebraran — and most can be traced back to al-Sufi's book. One of the most unusual names is Betelgeuse, the reddish star in constellation Orion. Its original Arabic name was likely Yad al-Jauza, but it got miscopied and repeatedly changed as it was translated from Arabic script to Medieval Latin and then to Italian and German.

Al-Sufi and the other Islamic astronomers believed they were fulfilling their creator's wishes. The Muslim holy book, the Qur'an, encourages exploring the universe, saying: "In the creation of the heavens and the earth ... there are indeed signs for men of understanding." Apparently those signs did not include questioning the Ptolemaic system. Al-Sufi accepted that an unmoving Earth was at the universe's center because it meshed with Muslim beliefs. The Qur'an also states, "It is not for the Sun to overtake the Moon. ... They all float, each in an orbit." It would be another five centuries before the Sun found its way to the center of things.


COPERNICAN REVOLUTION

News of Christopher Columbus landing on a continent unknown to Europe spread quickly — at least by 1492 standards. Nicolaus Copernicus was among the University of Kraków students amazed by the historic voyage. Europe's idea of the world was changing. But Copernicus would change the world's view of the universe itself.

Copernicus caught the astronomy bug while studying in Poland. He left to study church law in Italy but was lucky enough to get lodgings with the astronomy professor there. Astronomy was never Copernicus's profession, but it was his lifelong obsession. His day job was being a church business manager, called a canon, in a small town on the Baltic Sea. "This very remote corner of the Earth," is what Copernicus called what is today Frombork, Poland. Copernicus filled his free time with stargazing — and lots of reading.

Copernicus studied the texts of Ptolemy's ancient geocentric system. He read what the great thinkers and philosophers had written about it. Over the centuries, they'd added odd bits and pieces to the Ptolemaic system in order to get it to match what they saw in the night sky. All of the ridiculously complicated circles inside orbits within spheres troubled Copernicus. All the added-on circles and adjusted orbits needed to explain the Earth-centered system were to him like putting together a person from random feet, hands, and a head. "Since these fragments would not belong to one another at all, a monster rather than a man would be put together from them," Copernicus wrote. Why create a Frankenstein if you don't need to? For Copernicus, the question of how celestial objects moved could be simply explained by putting the Sun in the center, with all of the planets — including a spinning Earth — orbiting around it.


activityMake an Astrolabe

Astrolabe means "star-taker," as in taking the measurement of the stars. It's an ancient instrument that measures the angles of space objects such as stars and planets above the horizon.

Take your own star measurements after making this simple astrolabe.

YOU'LL NEED

* String or heavy thread, 12 inches (30 cm) long * Metal washer, bolt, or other weight * Protractor, 6 inches (15 cm) with hole at the center * Wide drinking straw * Heavy tape


1. Tie a washer or other weight to one end of the string.

2. Attach the other end of the string to the hole in the middle of the protractor's straight edge. Knot the string at the back of the protractor to hold it in the hole. If the hole is big, a bit of tape can help. Hold up the protractor, ruler side on top, and check that the string swings freely along the printed side of the protractor.

3. Set the straw against the ruler edge of the protractor and secure it there with tape. Your astrolabe is ready!

4. Test it out by using it to find your latitude. Find Polaris (see page 3) and then look at it through the straw. Note what degree the string lines up with on the protractor. (Your eye is at 0°.) Subtract that zenith angle from 90° to get your latitude. For example, if your astrolabe reads 42° with Polaris sighted (at zenith), then 90° – 42° = 48°.

5. Use your astrolabe to measure the latitude of the moon, planets, and stars. Make sure to write down the date and time with your measurements.


(Continues...)

Excerpted from Beyond The Solar System by Mary Kay Carson. Copyright © 2013 Mary Kay Carson. Excerpted by permission of Chicago Review Press Incorporated.
All rights reserved. No part of this excerpt may be reproduced or reprinted without permission in writing from the publisher.
Excerpts are provided by Dial-A-Book Inc. solely for the personal use of visitors to this web site.

Meet the Author

Mary Kay Carson has written more than 30 nonfiction books for children, including The Bat Scientists, Exploring the Solar System, and The Wright Brothers for Kids. She lives in Cincinnati, Ohio.

Customer Reviews

Average Review:

Write a Review

and post it to your social network

     

Most Helpful Customer Reviews

See all customer reviews >

Beyond the Solar System: Exploring Galaxies, Black Holes, Alien Planets, and More; A History with 21 Activities 3 out of 5 based on 0 ratings. 2 reviews.
book4children More than 1 year ago
I know I probably get a little over zealous when it comes to non-fiction books, but I really can't help it. Beyond the Solar System was just so fascinating! I took my kids to NASA and that also helped with my (and their) interest in the subject of the universe. The book starts off with the earliest explorations into the stars and continues on through the years until it reaches the present day. So it is written like a history book. An AMAZING history book. I had no idea how interesting the stars could be until I read this! This book is written well, so it kept me interested the whole way through. There are activities that kids (or adults) can do to enrich the experience. The activities were fun, but I couldn't do all of them because I didn't have access to some of the items needed in order to complete them. Even so, this is a really informative book that every library, school, and budding astronomer should have.
Anonymous More than 1 year ago
&king