Investigating Astronomy: A Conceptual View of the Universe 1st edition

Access is contingent on use of this textbook in the instructor's classroom.

• Chapter 1: Predicting the Motions of the Stars, Sun, and Moon
  • 1.1: Astronomy is both an ancient cultural practice and a cutting-edge science (7)
  • 1.2: The stars are grouped by constellations (5)
  • 1.3: All of the observed celestial motions can be described if our planet Earth spins once each day while it orbits around our Sun each year (10)
  • 1.4: The Sun appears to change positions over the day and throughout the year and these changes result in Earth's seasons (20)
  • 1.5: The Moon appears to change its position in the sky hourly and its phase throughout each month (17)
  • 1.6: Eclipses occur only during rarely observed events when our Sun, Moon, and Earth are perfectly aligned (23)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 2: Decoding the Hidden Messages in Starlight
  • 2.1: Light travels through empty space at a speed of nearly 300,000 km/s (7)
  • 2.2: Glowing objects, like stars, emit an entire spectrum of light (3)
  • 2.3: An object's temperature is revealed by the most intense wavelength of its spectrum of light (11)
  • 2.4: An object's chemical composition is revealed by the unique pattern of its spectrum of light (10)
  • 2.5: An object's motion through space is revealed by the precise wavelength positions of its spectrum of light (5)
  • 2.6: Telescopes use lenses, mirrors, and electronics to concentrate and capture incoming light for study (33)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 3: Analyzing Scales and Motions of the Universe
  • 3.1: Astronomers of antiquity used observation and reasoning to develop astonishing advances in the study of astronomy (18)
  • 3.2: Nicolaus Copernicus devised the first comprehensive Sun-centered model (14)
  • 3.3: Galileo's discoveries of moons orbiting Jupiter and phases of Venus strongly supported a heliocentric model (5)
  • 3.4: Johannes Kepler proposed that planets orbit the Sun in elliptical paths, moving fastest when closest to the Sun, with the closest planets moving at the highest speeds (10)
  • 3.5: Isaac Newton formulated three laws relating force and motion to describe fundamental properties of physical reality (12)
  • 3.6: Newton's description of gravity accounts for Kepler's laws and explains the motions of the planets (7)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 4: Exploring Our Evolving Solar System
  • 4.1: The solar system has two broad categories of planets orbiting the Sun: terrestrial (Earthlike) and Jovian (Jupiterlike) (14)
  • 4.2: Seven large satellites are almost as big as the inner, terrestrial planets (7)
  • 4.3: Spectroscopy reveals the chemical composition of the planets (6)
  • 4.4: Small chunks of rock and ice also orbit the Sun: asteroids, trans-Neptunian objects, and comets (10)
  • 4.5: The Sun and planets formed from a rotating solar nebula (7)
  • 4.6: The planets formed by countless collisions of dust, rocks, and gas in the region surrounding our young Sun (19)
  • 4.7: Understanding how our planets formed around the Sun suggests planets around other stars are common (7)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 5: Uncovering Earth's Systems
  • 5.1: Earth's layered interior is revealed by the study of earthquakes (25)
  • 5.2: Earth's surface changes because it is constantly moving (10)
  • 5.3: Earth's magnetic field protects life from the Sun's subatomic particles (7)
  • 5.4: Earth's atmosphere has a multilayered structure (13)
  • 5.5: A rapidly growing human population is altering our planetary habitat (5)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 6: Exploring Terrestrial Surface Processes and Atmospheres
  • 6.1: Comparing terrestrial planets and moons shows distinct similarities and dramatic differences in appearance (9)
  • 6.2: Many terrestrial world surfaces are dominated by impact craters revealing the age of underlying processes (35)
  • 6.3: Tectonics and volcanism influence surface features (18)
  • 6.4: Atmospheres surrounding terrestrial planets vary considerably (18)
  • 6.5: Evidence exists for water in locations besides Earth (13)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 7: Observing the Dynamic Giant Planets
  • 7.1: Dynamic atmospheres of Jupiter and Saturn change rapidly (15)
  • 7.2: Uranus and Neptune have seemingly quiet atmospheres (13)
  • 7.3: Saturn's moon Titan and Neptune's moon Triton exhibit unexpected atmospheres (8)
  • 7.4: All Jovian planet atmospheres are encircled by complex ring systems (16)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 8: Looking for Life Beyond Earth
  • 8.1: Planets and the chemical building blocks of life are found throughout space (17)
  • 8.2: Europa and Mars have the potential for life to have evolved (13)
  • 8.3: Meteorites from Mars have been scrutinized for life-forms (3)
  • 8.4: The Drake equation helps scientists estimate how many civilizations may inhabit our galaxy (12)
  • 8.5: Searches with space-based infrared telescopes and Earth-based radio telescopes for Earthlike planets and alien civilizations are under way (11)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 9: Probing the Dynamic Sun
  • 9.1: The Sun's energy is generated by thermonuclear reactions in its core (20)
  • 9.2: Energy slowly moves outward from the solar interior through several processes (10)
  • 9.3: The Sun's outer layers are the photosphere, chromosphere, and corona (8)
  • 9.4: Sunspots are low-temperature regions in the photosphere (13)
  • 9.5: The Sun's magnetic field also produces other forms of solar activity and causes aurorae on Earth (4)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 10: Observing Properties of Distant Stars
  • 10.1: Measuring the distances to nearby stars utilizes an effect called parallax (10)
  • 10.2: A star's brightness can be described in terms of luminosity or magnitude (8)
  • 10.3: A star's distance can be determined by comparing its luminosity and brightness (3)
  • 10.4: A star's color depends on its surface temperature (4)
  • 10.5: The spectra of stars reveal their chemical compositions as well as surface temperatures and sizes (7)
  • 10.6: Stars come in a wide variety of sizes and masses (7)
  • 10.7: Hertzsprung-Russell (H-R) diagrams reveal the different kinds of stars (8)
  • Test Bank Questions
  • Test Bank Questions (99)
  
  
• Chapter 11: Inferring Patterns in Star Life Cycles
  • 11.1: Stars form from the collapse of immense clouds of interstellar gas and dust (11)
  • 11.2: Most stars shine throughout their lives by converting hydrogen into helium through nuclear fusion (10)
  • 11.3: Careful observations of star clusters provide insight into how a star's mass influences how stars change over time (11)
  • 11.4: Stars slowly become red giants (20)
  • 11.5: Low-mass stars pulsate and eject planetary nebulae, leaving behind a white dwarf at the end of their life cycles (6)
  • Test Bank Questions
  • Test Bank Questions (98)
  
  
• Chapter 12: Predicting the Violent End of the Largest Stars
  • 12.1: High-mass stars create heavy elements in their cores before violently blowing apart in supernova explosions, leaving behind remnants (7)
  • 12.2: Core-collapse supernovae can leave behind remnants, neutrons stars, and pulsars (21)
  • 12.3: Black holes are created in the death throes of the most massive of stars (13)
  • 12.4: Black holes cannot be seen directly (7)
  • 12.5: White dwarfs and pulsars in close binary systems can become novae, bursters, and supernovae (4)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 13: Exploring Our Galaxy
  • 13.1: The Sun is located in the disk of our Galaxy, about 25,000 light-years from the galactic center (10)
  • 13.2: Observations of different types of dust, gas, stars, and star clusters reveal the shape of our Galaxy (6)
  • 13.3: Observations of star-forming regions reveal that our Galaxy has spiral arms (14)
  • 13.4: Measuring the rotation of our Galaxy reveals the presence of dark matter (12)
  • 13.5: Spiral arms are caused by density waves that sweep around the Galaxy (8)
  • 13.6: Infrared and radio observations are used to probe the galactic nucleus (5)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 14: Investigating Other Galaxies
  • 14.1: When galaxies were first discovered, it was not clear that they lie far beyond the Milky Way until their variable stars were carefully observed (6)
  • 14.2: Hubble devised a system for classifying galaxies according to their appearance (8)
  • 14.3: Exploding stars release similar amounts of light and their distance can be inferred by measuring their apparent brightness (9)
  • 14.4: Galaxies are found in clusters and superclusters (5)
  • 14.5: Colliding galaxies produce starbursts, spiral arms, and other spectacular phenomena (10)
  • 14.6: Dark matter can be inferred by observing the motions of galaxy clusters (5)
  • 14.7: Quasars are the ultraluminous centers of the most distant galaxies (7)
  • 14.8: Supermassive black holes may be the "central engines" that power active galaxies (9)
  • 14.9: Galaxies may have formed from the merger of smaller objects (3)
  • Test Bank Questions
  • Test Bank Questions (100)
  
  
• Chapter 15: Observing the Evolution of the Universe
  • 15.1: The darkness of the night sky tells us about the nature of the universe (4)
  • 15.2: Our observations show us that the universe is expanding (10)
  • 15.3: The expanding universe emerged from a cataclysmic event called the Big Bang (8)
  • 15.4: The microwave radiation that fills all space is compelling evidence of a hot Big Bang (7)
  • 15.5: The universe was a rapidly expanding, hot, opaque plasma during its first 300,000 years and has slowly cooled (5)
  • 15.6: The shape of the universe indicates its matter and energy content (6)
  • 15.7: Observations of distant supernovae indicate that we live in an accelerating universe (7)
  • Test Bank Questions
  • Test Bank Questions (100)