Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lens Inquiry A CfAO/ISEE Designed Laboratory Hartnell Community College September 2009.

Published byHoward Brown Modified over 8 years ago

Similar presentations

Presentation on theme: "Lens Inquiry A CfAO/ISEE Designed Laboratory Hartnell Community College September 2009."— Presentation transcript:

1 Lens Inquiry A CfAO/ISEE Designed Laboratory Hartnell Community College September 2009

2 Inquiry Inquiry is modeled on how scientists actually perform their research, with no one to tell them what to investigate or how to carry out their investigations. Inquiry involves making observations, developing questions, designing experiments, making and testing predictions, recording results, reflecting on, summarizing and communicating your understanding. Inquiry can be challenging, but it can also be rewarding.

3 Activity Overview Demonstrations of a few phenomena involving lenses. You will have a short period of time to get familiar with the materials and test these out while writing down vocabulary. We will compile vocabulary as a class and you will choose a question to investigate to explain one of the phenomena that you observed. You will have 50 min to conduct your investigation. You will present your findings to the class. You will build a telescope using what you learned in your investigations and the presentations.

4 Activity Timeline 6:00-6:10 Introduction 6:10-6:15Demos involving Lenses 6:15-6:25Starters 6:25-6:35Discussion of Vocab and Generate Questions 6:35-6:40Choose question to investigate and form groups (3-4 people) 6:40-7:30Focused Investigation 7:30-7:45Make a poster to answer your question 7:45-8:15Sharing out: each group will have 2 minutes to present 8:15-8:25Converging Lenses Synthesis 8:25-8:45Telescope Activity 8:45-8:50Final Synthesis

5 Activity Timeline 6:00-6:10 Introduction 6:10-6:15Demos involving Lenses 6:15-6:25Starters 6:25-6:35Discussion of Vocab and Generate Questions 6:35-6:40Choose question to investigate and form groups (3-4 people) 6:40-7:30Focused Investigation 7:30-7:45Make a poster to answer your question 7:45-8:15Sharing out: each group will have 2 minutes to present 8:15-8:25Converging Lenses Synthesis 8:25-8:45Telescope Activity 8:45-8:50Final Synthesis

6 Why Use Telescopes? You can see many objects in the sky using only your eyes, as you have done in previous lab activities, but using an astronomical telescope allows you to see: – More detail in the bright objects – Many objects that are too faint to even detect using only your eyes

7 Astronomers rely on Telescopes Telescopes improve our vision of the objects of study in a number of ways: – make the object appear larger – make the object appear sharper – make the object appear brighter

8 As technology evolves, telescopes become more advanced and allow us to see more detail in a range of astronomical objects.

9 State-of-the Art Famous Telescopes The Hubble Space Telescope 2.4m Primary Mirror Keck: 10m Reflecting Telescopes

10 These telescopes are currently being used by professional astronomers to conduct forefront research. Historically telescopes have been instrumental to our discovery of what lies beyond our own planet.

11 Things Inside our Solar System SaturnNeptune Credit: Saturn G. S. Orton & P. A. Yanamandra-Fisher (JPL), Keck Observatory, NASA, Uranus Lawrence Sromovsky, (Univ. Wisconsin- Madison), Keck Observatory, Neptune AO Staff, Keck, LLNL Astronomy Picture of the Day: http://antwrp.gsfc.nasa.gov/apod/ Uranus

12 Things inside our own galaxy, the Milky Way M16: Pillars of CreationNGC 1499: The California Nebula Credit: M16 J. Hester, P. Scowen (ASU), HST, NASA NGC 1499 Caltech, Palomar Observatory, Digitized Sky Survey; Courtesy: Scott Kardel

13 Other galaxies Credit & Copyright: M31 Robert Gendler (robgendlerastropics.com) Hubble Ultra Deep Field S. Beckwith & the HUDF Working Group (STScI), HST, ESA, NASA M31: The Andromeda GalaxyThe Hubble Ultra Deep Field

14 To understand how telescopes work, we will concentrate on a particular type of telescope called a refracting telescope that uses lenses.

15 Refracting Telescopes Located Nearby: 36 inch Refractor at Lick Observatory 20 inch Refractor at Chabot Space and Science Center

16 What’s Inside? This simple telescope is made up of two lenses. To simplify the problem we would like for you to learn how a single lens works in an inquiry activity.

17 Activity Timeline 6:00-6:10 Introduction 6:10-6:15Demos involving Lenses 6:15-6:25Starters 6:25-6:35Discussion of Vocab and Generate Questions 6:35-6:40Choose question to investigate and form groups (3-4 people) 6:40-7:30Focused Investigation 7:30-7:45Make a poster to answer your question 7:45-8:15Sharing out: each group will have 2 minutes to present 8:15-8:25Converging Lenses Synthesis 8:25-8:45Telescope Activity 8:45-8:50Final Synthesis

18 Activity Timeline 6:00-6:10 Introduction 6:10-6:15Demos involving Lenses 6:15-6:25Starters 6:25-6:35Discussion of Vocab and Generate Questions 6:35-6:40Choose question to investigate and form groups (3-4 people) 6:40-7:30Focused Investigation 7:30-7:45Make a poster to answer your question 7:45-8:15Sharing out: each group will have 2 minutes to present 8:15-8:25Converging Lenses Synthesis 8:25-8:45Telescope Activity 8:45-8:50Final Synthesis

19 Activity Timeline 6:00-6:10 Introduction 6:10-6:15Demos involving Lenses 6:15-6:25Starters 6:25-6:35Discussion of Vocab and Generate Questions 6:35-6:40Choose question to investigate and form groups (3-4 people) 6:40-7:30Focused Investigation 7:30-7:45Make a poster to answer your question 7:45-8:15Sharing out: each group will have 2 minutes to present 8:15-8:25Converging Lenses Synthesis 8:25-8:45Telescope Activity 8:45-8:50Final Synthesis

20 Activity Timeline 6:00-6:10 Introduction 6:10-6:15Demos involving Lenses 6:15-6:25Starters 6:25-6:35Discussion of Vocab and Generate Questions 6:35-6:40Choose question to investigate and form groups (3-4 people) 6:40-7:30Focused Investigation 7:30-7:45Make a poster to answer your question 7:45-8:15Sharing out: each group will have 2 minutes to present 8:15-8:25Converging Lenses Synthesis 8:25-8:45Telescope Activity 8:45-8:50Final Synthesis

21 Activity Timeline 6:00-6:10 Introduction 6:10-6:15Demos involving Lenses 6:15-6:25Starters 6:25-6:35Discussion of Vocab and Generate Questions 6:35-6:40Choose question to investigate and form groups (3-4 people) 6:40-7:30Focused Investigation 7:30-7:45Make a poster to answer your question 7:45-8:15Sharing out: each group will have 2 minutes to present 8:15-8:25Converging Lenses Synthesis 8:25-8:45Telescope Activity 8:45-8:50Final Synthesis

22

23 Activity Timeline 6:00-6:10 Introduction 6:10-6:15Demos involving Lenses 6:15-6:25Starters 6:25-6:35Discussion of Vocab and Generate Questions 6:35-6:40Choose question to investigate and form groups (3-4 people) 6:40-7:30Focused Investigation 7:30-7:45Make a poster to answer your question 7:45-8:15Sharing out: each group will have 2 minutes to present 8:15-8:25Converging Lenses Synthesis 8:25-8:45Telescope Activity 8:45-8:50Final Synthesis

24 Light Travels in Straight Lines But… it can change directions when moving from one medium to another Index of refraction (n): a property of the medium (glass/liquid/etc) that determines how the light travels through it The larger the change in speed, the more the light is bent Snell’s Law: n 1 sin(angle 1 ) = n 2 sin(angle 2 )

25 Image Brightness The LARGER the lens the BRIGHTER the Image The shape of aperture doesn't matter, just the amount of light that gets through

26 Focal Point The curvature of the lens bends light toward a special focal point which is different for different lenses Higher curvature means more bending means shorter focal length A completely flat lens will not bend light at all If the object is at infinity, the image is located at the focal length of the lens

27 Object and Image Distances Combined with the focal length of the lens, these distances can be predicted using the lensmaker's equation 1/(image distance) = 1/(object distance)+1/(focal length)

28 Putting Two Lenses Together Separation: sum of the two focal lengths

29 Activity Timeline 6:00-6:10 Introduction 6:10-6:15Demos involving Lenses 6:15-6:25Starters 6:25-6:35Discussion of Vocab and Generate Questions 6:35-6:40Choose question to investigate and form groups (3-4 people) 6:40-7:30Focused Investigation 7:30-7:45Make a poster to answer your question 7:45-8:15Sharing out: each group will have 2 minutes to present 8:15-8:25Converging Lenses Synthesis 8:25-8:45Telescope Activity 8:45-8:50Final Synthesis

30

31 Activity Timeline 6:00-6:10 Introduction 6:10-6:15Demos involving Lenses 6:15-6:25Starters 6:25-6:35Discussion of Vocab and Generate Questions 6:35-6:40Choose question to investigate and form groups (3-4 people) 6:40-7:30Focused Investigation 7:30-7:45Make a poster to answer your question 7:45-8:15Sharing out: each group will have 2 minutes to present 8:15-8:25Converging Lenses Synthesis 8:25-8:45Telescope Activity 8:45-8:50Final Synthesis

32 Layout

33 State-of-the Art Famous Telescopes Trade-offs Both Reflecting Telescopes (Mirrors) Hubble has a 2.4m Primary, but is in Space Each of Keck’s 10m primary mirrors is composed of 36 hexagonal segments that work together as a single piece of reflective glass. The Hubble Space TelescopeKeck: 10m Reflecting Telescopes

34 Challenger Telescope at Fremont Peak Observatory 30” Diameter f/4.8 Newtonian on an English cross-axis equatorial mount First light in 1986

35

36 Activity Timeline 2:00-2:10 Introduction 2:10-2:15Demos involving Lenses 2:15-2:25Starters 2:25-2:35Discussion of Vocab and Generate Questions 2:35-2:40Choose question to investigate and form groups (3-4 people) 2:40-3:30Focused Investigation 3:30-3:45Make a poster to answer your question 3:45-4:15Sharing out: each group will have 2 minutes to present 4:15-4:25Converging Lenses Synthesis 4:25-4:45Telescope Activity 4:45-4:50Final Synthesis

37 Activity Timeline 3:00-3:10 Introduction 3:10-3:15Demos involving Lenses 3:15-3:25Starters 3:25-3:35Discussion of Vocab and Generate Questions 3:35-3:40Choose question to investigate and form groups (3-4 people) 3:40-4:30Focused Investigation 4:30-4:45Make a poster to answer your question 4:45-5:15Sharing out: each group will have 2 minutes to present 5:15-5:25Converging Lenses Synthesis 5:25-5:45Telescope Activity 5:45-5:50Final Synthesis

Download ppt "Lens Inquiry A CfAO/ISEE Designed Laboratory Hartnell Community College September 2009."

Similar presentations

Optics and Telescopes Chapter Six. Telescopes The fundamental purpose of any telescope is to gather more light than the naked eye can In many cases telescopes.

Optics and Telescopes Chapter Six. Telescopes The fundamental purpose of any telescope is to gather more light than the naked eye can In many cases telescopes.
Chapter 24: Studying the Sun (and other stars)

Chapter 24: Studying the Sun (and other stars)
Foundations of Physics

Foundations of Physics
Telescopes: Augmenting the Eye Text, Chapter 4 Thanks to: howstuffworks.com bbc/science.

Telescopes: Augmenting the Eye Text, Chapter 4 Thanks to: howstuffworks.com bbc/science.
Light and Optics 4.1 Mirrors form images by reflecting light. 4.2

Light and Optics 4.1 Mirrors form images by reflecting light. 4.2
1 Earth’s Atmosphere & Telescopes Whether light is absorbed by the atmosphere or not depends greatly on its wavelength. Earth’s atmosphere can absorb certain.

1 Earth’s Atmosphere & Telescopes Whether light is absorbed by the atmosphere or not depends greatly on its wavelength. Earth’s atmosphere can absorb certain.
Telescopes Chapter 1 Section 2.

Telescopes Chapter 1 Section 2.
Mirrors and lenses PHY232 Remco Zegers Room W109 – cyclotron building

Mirrors and lenses PHY232 Remco Zegers Room W109 – cyclotron building
Telescopes. Galileo 1609 The Moon as a World Jupiter has Moons.

Telescopes. Galileo 1609 The Moon as a World Jupiter has Moons.
Mirrors and lenses PHY232 Remco Zegers Room W109 – cyclotron building

Mirrors and lenses PHY232 Remco Zegers Room W109 – cyclotron building
Optical Instruments Chapter 25.

Optical Instruments Chapter 25.
Reading Unit 28, Unit 29, Unit 30 Will not be covered by the first exam.

Reading Unit 28, Unit 29, Unit 30 Will not be covered by the first exam.
Telescopes and Spacecraft Astronomy 311 Professor Lee Carkner Lecture 7.

Telescopes and Spacecraft Astronomy 311 Professor Lee Carkner Lecture 7.
Lenses Physics 202 Professor Lee Carkner Lecture 23.

Lenses Physics 202 Professor Lee Carkner Lecture 23.
Optics and Telescopes Chapter Six.

Optics and Telescopes Chapter Six.
Telescopes Chapter 5. Objectives   Telescopes……………Chapter 5 Objectives:   1. To list the parts of a telescope.   2. To describe how mirrors aid.

Telescopes Chapter 5. Objectives   Telescopes……………Chapter 5 Objectives:   1. To list the parts of a telescope.   2. To describe how mirrors aid.
Part I: A Trip Through the Universe “Our Transportation” STARS AND GALAXIES 1.

Part I: A Trip Through the Universe “Our Transportation” STARS AND GALAXIES 1.
Chapter 25 Optical Instruments.

Chapter 25 Optical Instruments.
KEYWORDS: refraction, angle of incidence, Angle of refraction, refractive index KEYWORDS: refraction, angle of incidence, Angle of refraction, refractive.

KEYWORDS: refraction, angle of incidence, Angle of refraction, refractive index KEYWORDS: refraction, angle of incidence, Angle of refraction, refractive.
The Eye of Our Universe The Whirlpool Galaxy, starburst type. NASA and the Space Telescope Science Institute. 2005. unitedstreaming. 2 November 2005 Marianne.

The Eye of Our Universe The Whirlpool Galaxy, starburst type. NASA and the Space Telescope Science Institute unitedstreaming. 2 November 2005 Marianne.

Similar presentations

Ads by Google