1 / 10

Chapter 9 Planets and Other Objects in Space

Chapter 9 Planets and Other Objects in Space. Page 304 . On a clear night away from city lights, about 3,000 stars are visible. Why can we see these objects only at night? What other objects can be seen in the night sky?. Page 306 . Lesson 1: How Do Earth and Its Moon Move?.

errin
Télécharger la présentation

Chapter 9 Planets and Other Objects in Space

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Chapter 9 Planets and Other Objects in Space Page 304 On a clear night away from city lights, about 3,000 stars are visible. Why can we see these objects only at night? What other objects can be seen in the night sky?

  2. Page 306 Lesson 1: How Do Earth and Its Moon Move? Sun, Moon, and Myths: To the ancient Romans, Diana was the goddess of the moon. They honored Apollo as the sun god. The ancient Romans believed that their gods caused day and night and brought about changes in weather and seasons.

  3. Earth’s Tilt and the Seasons • Night follows day. Spring follows winter. The changes of night and day, as well as the seasons, occur because of the ways Earth moves. • Earth moves in two ways: • Earth rotates, or spins, on its axis. An axis is an imaginary line through both poles. It takes 24 hours for Earth to completely rotate on its axis. • The second way Earth moves is by orbiting, or revolving around, the sun. • The path of one object in space around another object is its orbit. • As Earth orbits the sun, part of it is tilted toward the sun. That part of Earth takes in more energy from the sun. This energy is in the form of heat. • During June, July, and August, the Northern Hemisphere of Earth is tilted toward the sun (causing summer) and the Southern Hemisphere is tilted away (causing winter). The cycle continues as Earth orbits the sun. Page 308

  4. 1. The summer solstice, about June 21 in the Northern Hemisphere, is the day of the year that has the most hours of daylight. 3. The winter solstice, about December 21, is the day that has the most hours of darkness. 2. On the autumn equinox, about September 21, and the 4. spring equinox, about March 21, the hours of daylight and darkness are the same. These dates mark the beginning of autumn and of spring. Page 309

  5. Page 310 BrainPOP—Solstice and Equinox

  6. Moon Phases

  7. Moon Phases • The moon is a small planet like body that orbits Earth, rather than the sun. • The moon appears to shine, but the light you observe, is actually reflected light from the sun. As the moon orbits Earth, different amounts of its lit surface can be seen. That’s why the moon seems to have different shapes, or phases. • The phases of the moon follow the same pattern about every 29.5 days. On one of those days, all of the lit side of the moon can be seen from Earth (full moon). Then, as the moon orbits one day we see none of the lit side at all (new moon). Page 310

  8. Page 311 • New Moon To Full Moon • When the moon’s orbit brings it between Earth and the sun, its lit side can’t be seen from Earth. This phase is called the new moon. Later in the month, when Earth is between the moon and the sun, we see the sun’s light reflected from one whole side of the moon. When this happens, we see a full moon. BrainPOP Moon Phases

  9. Calendars • We use calendars to divide time into days, months, and years. All of these units of time are based on the movements of Earth. • A solar year is 365 days, 5 hours, 48 minutes, and 45.5 seconds long. This is based on the amount of time it takes Earth to make one complete orbit around the sun. Today’s calendars have 365 days in a year. So every four years, an extra day is added in February to make up for the extra hours and minutes in a solar year. Years with an extra day are called leap years. • Some ancient people based months on the movements of the moon. They knew that the moon completes a cycle of phases in about 29.5 days. Each cycle was almost a month, so a lunar year is 11.5 days shorter than a solar year. Some cultures that use lunar calendars add a month to their calendar every few years to make up for the shorter lunar year. Page 312

  10. Lesson 1 Review • Match the vocabulary terms. phases orbits axis moon When Earth moves around the sun, it _________ the sun. The moon has __________ that follow a pattern, repeating about every 29.5 days. The _______ is the imaginary line from one pole of Earth to the other. orbits phases axis

More Related