1. Chapter 26 ~ Stars and Galaxies Section 1 ~ Constellations

2. Chapter 26 Section 1
Before you read - write the reading’s objectives in this space:
1 – _______________________________________
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2 – _______________________________________
3 - ________________________________________

3. Before you read - write the reading’s objectives in this space:
1 - Describe a constellation as a pattern of stars.
2 - Compare and contrast types of optical telescopes.
3 - Explain how a radio telescope differs from an optical one.

4. What is a Constellation?
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Constellations and the stars that make them up are visible with the unaided eye. 1

5. What is a Constellation
What is a Constellation? Long ago, people named patterns of stars after characters in stories, animals, or tools. Constellations are names given to these star patterns by ancient cultures
Constellations and the stars that make them up are visible with the unaided eye.

6. What are telescopes used for. ____________________
What are telescopes used for? ____________________ .___________________________________________________________________________________________________________________________There are two basic types of optical telescopes, what are they? _________________- Uses only lenses to study light.
Light passes through the objective lens. The eyepiece then magnifies the image. 2

7. What are telescopes used for
What are telescopes used for? Optical telescopes are used to study objects in visible light, and radio telescopes are used to study objects in the radio wavelengths.
There are two basic types of optical telescopes, what are they? Refracting telescope - Uses only lenses to study light.
Light passes through the objective lens. The eyepiece then magnifies the image.

8. 2- A ________telescope uses a mirror as an objective to reflect light to the focus.
Light passes through the open end of a reflecting telescope and strikes a concave mirror at the base of the telescope. 3

9. 2- A reflecting telescope uses a mirror as an objective to reflect light to the focus.
Light passes through the open end of a reflecting telescope and strikes a concave mirror at the base of the telescope.

10. How can you can find the magnifying power (Mp) of a telescope
Formula: 4

11. Mp = fo/fe fe(Mp) = fo fe = fo/Mp
How can you can find the magnifying power (Mp) of a telescope?
Divide the focal length of the objective (fo) by the focal length of the eyepiece (fe).
Formula:
Mp = fo/fe
fe(Mp) = fo
fe = fo/Mp

12. What would the magnifying power for a telescope with a focal length of 3,000mm and an eyepiece with a focal length of 40mm be?
Formula:
Plug in and solve: 5

13. What would the magnifying power for a telescope with a focal length of 3,000mm and an eyepiece with a focal length of 40mm be?
Formula:
Plug in and Solve:
Mp = fo/fe
Mp = 3,000mm/40mm
Mp = 75 times

14. If the focal length of a telescopes objective is 800mm and the magnifying power of the telescope is 40 times, what is the focal length of the eye piece?
Formula to use:
Plug in and solve: 6

15. If the focal length of a telescopes objective is 800mm and the magnifying power of the telescope is 40 times, what is the focal length of the eye piece?
Formula to use:
Plug in and solve:
fe = fo/Mp
fe = 800mm/ 40
fe = 20mm

16. What does adaptive optics do?
The most recent innovations in optical telescopes involve active and adaptive optics.
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What does adaptive optics do? 7

17. The most recent innovations in optical telescopes involve active and adaptive optics.
With active optics, a computer is used to correct changes in temperature, mirror distortions, and bad viewing conditions.
What does adaptive optics do?
Uses a laser to probe the atmosphere and relay information to a computer about air turbulence.

18. What is a radio telescope?
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Radio waves have long wavelengths, a radio telescope must be built with a very large objective, usually some form of dish antenna.
Astronomers often build several radio telescopes close together
and connect them to form one
large telescope. 8

19. What is a radio telescope
What is a radio telescope? A telescope that collects and amplifies radio waves.
Radio waves have long wavelengths, a radio telescope must be built with a very large objective, usually some form of dish antenna.
Astronomers often build several radio telescopes close together
and connect them to form one
large telescope.

20. Hubble Space Telescope
Even using active and adaptive optics, the atmosphere limits what Earth-based telescopes can achieve. For this reason, astronomers use space telescopes, such as the Hubble Space Telescope.
NOVA Saving Hubble Update 15min
How Hubble Sees (2 min)
What is a light-year? __________________________________________________________________________________________________________________________________________________________________________________________________________________ 9

21. Hubble Space Telescope
Even using active and adaptive optics, the atmosphere limits what Earth-based telescopes can achieve. For this reason, astronomers use space telescopes, such as the Hubble Space Telescope.
How Hubble Sees (2 min)
What is a light-year?
The distance that light travels in one year.
Speed of light 186,000 miles/sec
The distance light travels in one full year is about 6 trillion miles.

22. Speed of light 186,000 miles/sec
The distance light travels in one full year is about 6 trillion miles.
That's well beyond the bounds of the solar system, yet only a quarter of the way to the nearest star, Alpha Centauri, in the southern constellation of the Centaur. It will take another three-plus years before we reach that star's burning surface. Alpha Centauri is more than 26 trillion miles or 4.3 light years away.

23. What is a spectroscope? ________________________
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Can you think of a time when we did something similar?
**This can tell astronomers a great deal about a star. For example, they can determine its chemical composition, its surface temperature, and whether it is moving away from or toward Earth. 10

24. Can you think of a time when we did something similar?
What is a spectroscope? A device that uses a prism or diffraction grating to disperse the light into its component wavelengths. A spectroscope disperses light into its individual wavelengths, or its spectrum.
Can you think of a time when we did something similar?
**This can tell astronomers a great deal about a star. For example, they can determine its chemical composition, its surface temperature, and whether it is moving away from or toward Earth.

25. What does a spectroscope do?
                                         
A spectroscope helps us find out what stars are made of. It disperses, or separates, white light from a star into a very wide spectrum of colors — much wider than a normal prism does. When spread very wide, black lines appear in the spectrum.
The first scientists to observe these lines wondered why they were there and what they meant. It turns out that particular elements in the star created particular patterns of lines. Once scientists knew the element responsible for a certain pattern, they knew which elements were present in the star. This was a revolutionary discovery.

27. Question 1 1 A refracting telescope uses a _______ as an objective.
Section Check 1
Question 1
A refracting telescope uses a _______ as an objective.
A. mirror
B. wave
C. convex lens
D. laser 11

28. Section Check 1
Answer
The answer is C. Convex lens are curved outward like the surface of a ball.

29. Section Check 1
Question 2
What does a spectroscope do? 12

30. Question 2 Answer 1 What does a spectroscope do?
Section Check 1
Question 2
What does a spectroscope do?
Answer
A spectroscope disperses the light from a star or other celestial object collected by a telescope into an electromagnetic spectrum.

31. Question 3 1 What is the distance that light travels in one year?
Section Check 1
Question 3
What is the distance that light travels in one year?
A. 15 million km
B. 9.5 trillion km
C. 12 billion km
D. 2 million km 13

32. Section Check 1
Answer
The answer is B. Large distances in space are measured in a unit called a light-year, which is 9.5 trillion km.