© Sierra College Astronomy Department1 Photographing the Sun and Moon (II-C) Prime Focus Photography.

Slides:

Advertisements

Similar presentations

5) Magnifying glass (Simple magnifier)

Advertisements

Refraction of Light Chapter 17. Index of refraction When light travels from one material to another it usually changes direction The bending of light.

The 2012 Transit of Venus Chris Sorensen KSU Physics.

Telescope Tear-Down Anatomy of a 114mm f/8 Newtonian Reflector.

Angles Angle  is the ratio of two lengths:

Moon!!! How Big Is the Moon and Sun? Whitchurch High School Year 8.

Solar Eclipse Workshop By Darren Bellingham. A simulated view during totality.

Measuring the diameter of the Sun. Aristarchus Aristarchus (310 B.C B.C.) was a Greek astronomer and mathematician who was the first to propose.

Photgraphic camera. How it works? Take a simple converging lens: Object – usually at a distance much, much larger from the lens than its focal length Lens.

7. Optical instruments 1) Cameras

This Set of Slides This set of slides deals with telescopes. Units covered: 26, 27, 28, 29, and 30.

DIGITAL PHOTOGRAPHY: BACK TO BASICS Source:

Ch 25 1 Chapter 25 Optical Instruments © 2006, B.J. Lieb Some figures electronically reproduced by permission of Pearson Education, Inc., Upper Saddle.

Physics 1809 Optics 2: Spherical Lenses and Optical Instruments Purpose of this Minilab Use lens formula to determine focal length of a lens. Learn about.

Telescopes. Optical Telescopes Ground based and on satellites Observations are recorded using a camera instead of the human eye most times. – This is.

Converging lenses Diverging Lenses The Lens Equation We can make use of the fact that changing the focal length and position of the object we can change.

Modern Optics Lab Lab 3: Experiments with the Telemicroscope  Measuring: Focal lengths of thin lenses Real image magnification Virtual image magnification.

Safe viewing of the Transit of Venus Biman Basu 1.

How does a camera work? Ksenia Bykova. Types of film cameras  SLR cameras (Single Lens Reflex)  SLR cameras (Single Lens Reflex) – you see the actual.

Partial Eclipse of the Sun 9:32 am. Partial Eclipse of the Sun What is it? It’s where the Moon passes in front of the disc of the Sun The Sun is 400 times.

ASTRO 101 Principles of Astronomy. Instructor: Jerome A. Orosz (rhymes with “boris”) Contact: Telephone:

Refracting Telescopes Astrophysics Lesson 2. Homework No homework except to revise for the mock exam on Friday!

The Simple Astronomical Telescope. The angular magnification, M, (also sometimes called magnifying power) produced by an optical instrument is defined.

New Improved Eyes Telescopes and “Invisible” Astronomy.

Stronger Eyes and Better Numbers Topic 2. Telescopes Used to magnify objects at great distances Uses: Objective lens: Large and at the front of the telescope.

The Solar System: A6: Telescopes.

Magnifiers, Projectors, CamerasPaul Avery (PHY 3400)1 Magnifiers, Projectors, Cameras Applied Optics Paul Avery University of Florida

PHYS 1442 – Section 004 Lecture #22-23 MW April 14-16, 2014 Dr. Andrew Brandt 1 Cameras, Film, and Digital The Human Eye; Corrective Lenses Magnifying.

Space Distances using Parallax 1. Your “telescope” is a box with a small pinhole on one side. The pinhole represents the lens on the outside of the telescope.

Astrophotography The Basics. Image Capture Devices Digital Compact cameras Webcams Digital SLR cameras Astronomical CCD cameras.

Eclipses: Shadow and Light. Which of the Following is True? 1. An eclipse of the sun occurs when an invisible dragon eats the sun. 2. During eclipses,

Annular Eclipse of the Sun. Phases of the Moon The appearance or shape of the Moon gradually changes through the course of a month. This cycle - the cycle.

Telescopes come in three basic styles. Refracting telescopes use lenses Refractors are either achromatic (some color distortion) or apochromatic (very.

EUROPEAN EXTREMELY LARGE TELESCOPE WILL HAVE A 40 METER MIRROR AND WILL GATHER 13 TIMES MORE LIGHT THAT THE BEST CURRENT TELESCOPE – IMAGES WILL BE 16.

Optics and Telescopes Chapter Six. Introducing Astronomy (chap. 1-6) Introduction To Modern Astronomy I Ch1: Astronomy and the Universe Ch2: Knowing the.

Lesson 6 – Microscope and telescope

REFRACTION AND ITS USES Done by: Wecom Huang Hui Kang 3P324.

Lesson 12 November 29 th,  Telescope - an optical device that provides enlarged images of distant objects.  Dutch spectacle-maker Hans Lippershey.

SUNSPOTS Dark spots, some as large as 50,000 miles in diameter, move across the surface of the sun, contracting and expanding as they go. These strange.

Dow Now What do you already know about light and how it moves?

Prepare your scantron: Fill in your name and fill the bubbles under your name. LAST NAME FIRST, First name second Put your 4-digit code instead of “ IDENTIFICATION.

Telescopes Lecture. Standards Understand how knowledge about the universe comes from evidence collected from advanced technology (e.g., telescopes, satellites,

Use this loopy starter to highlight areas you need to focus on during this revision lesson. Stop the presentation after Slide 11 - Q 10. Replay at the.

Unit 57 – Photography Lenses. Lenses of different focal lengths allow photographers to have more creative control 1.Standard lens 2.Wide-angle lens 3.Telephoto.

M. Rahman P1 TOPIC 1 1) What is the difference between the heliocentric model of the world and geocentric model? Answer Heliocentric-sun centred Geocentric-earth.

Lens Applications.

Chapter 26 ~ Stars and Galaxies Section 1 ~ Constellations.

The Human Eye LG: I can describe the parts and function of the human eye and describe the types of images we observe and the reasons for common vision.

Telescopes How do they work?. 1. History 2. Lenses & Hardware 3. Reflecting Telescopes 4. Refracting Telescopes.

 Imagine a clear evening when a full moon is just starting to rise. Even though the Moon might seem large and close, it is still too far away for you.

© Sierra College Astronomy Department 1 Off-axis guiding and balancing (II-E)

Adapted from presentation by Chuck Patterson, Cheyenne, WY, HS teacher

Solar Eclipse Safety Jeff Fitch 8/10/17.

Astronomy 04 The Solar System

The Great American Solar Eclipse 2017

5) Magnifying glass (Simple magnifier)

P1 Topic 1 Big Teach Visible Light and the Solar System

Focusing on the big picture.

Unit 8: Light and Optics Chapter 22: Optics

Characteristics of the Sun

The Sun Our Star.

Observations and the telescope

Characteristics of the Sun

Unit 3 Space Exploration

Prepare your scantron:

7. Optical instruments 1) Cameras

Telescopes come in three basic styles

SUN PROJECT BY CODY, TAYLOR AND JAK 7F.

Presentation transcript:

© Sierra College Astronomy Department1 Photographing the Sun and Moon (II-C) Prime Focus Photography

2 Additional Topic Slide, if needed Universal Time

Fun Solar Facts s As viewed from the Earth, the Sun has an average angular diameter of 31´ 59” and is at an average distance from the Earth of X 10 8 km which is defined as 1 Astronomical Unit (AU).

Safely viewing the Sun s Pinhole projection s Eyepiece projection on a piece of paper s Through a proper solar filter  Ex: Mylar; #14 or greater welder’s glass s Through a telescope with a solar filter in the front of the telescope

Calculating the Size of the Sun R Sun D d r s By using the solar projection device we can calculate the linear size of the sun Projection of sun Pinhole projector  = 1.50 x 10 8 km = 1 m

The Corona as seen during a total solar eclipse

Sun in Optical Sun in UV nm 28.4 nm

© Sierra College Astronomy Department8 Total Solar Eclipse Total Solar Eclipse on August 21, 2017

s One can also use the afocal method s Use a camera mount to attach the camera to the eyepiece or use a tripod to point a camera towards the eyepiece  Camera looks directly into the eyepiece, just like your eye would. u Vignetting can be an issue Vignetting  The effective focal length of the camera + telescope: Taking pictures of the Sun and Moon – using the afocal method

Afocal setup © Sierra College Astronomy Department10

Procedure - Terrestrial s Use Prime Focus to take pictures of something outside (the further away the better). Use the focal reducer. s Use the afocal method to take pictures of the same target. Use the smaller 50 mm lens and the 40 mm eyepiece. s Download pictures! s Answer questions #1 and #2 in Lab 11

Taking pictures of the Sun and Moon s USE A PROPER SOLAR FILTER TO VIEW THE SUN! s Even with a 400-mm telephoto lens, the image of the sun or moon on the digital camera sensor is still fairly small s Use the telescope as a telephoto lens: Connect a camera with T-adaptor and T-ring  Prime focus photography  T-adaptor connects to telescope  T-ring connects to T-adaptor and camera  Use Focal Reducer to get all of Sun onto digital sensor

Procedure - Solar s Set up telescope and align it North. s Go through the star alignment procedure up to the point before the telescope slews to the first alignment star (through step 8 on star alignment guide). s Put on solar filter and manually move telescope to look at sun (by minimizing the shadow). Lock down telescope and move telescope by hand control. Then….  Prime Focus: Take off diagonal and put on focal reducer. Then put on the T-adapter and T-ring attached to camera onto the focal reducer and then adjust the focus of the telescope THEN s Have afocal apparatus set up (eyepiece + camera mount) and place it into the telescope. Keep extended camera lens about 5 mm from the eyepiece.  Focus camera and then focus telescope. Use focal length of 50 mm fixed lens Adjust camera-eyepiece to avoid vignetting and seeing the secondary mirror.

Procedure - Solar s Use Prime Focus to take pictures of the sun. Use the focal reducer and solar filter. s Use the afocal method to take pictures of the sun. Use the smaller 50 mm lens and the 40 mm eyepiece. s Download pictures! s Answer question #3 in Lab 14

© Sierra College Astronomy Department15 Prime Focus with C-8 and focal reducer

The Sun afocal

Vignetting and seeing the secondary mirror afocal

The Sun afocal

Sun Halo

Sun Dogs

Anatomy of the Sun

© Sierra College Astronomy Department22 Sunspots and the Solar Activity Cycle s Dark spots on the Sun were first reported by the Chinese in the 5 th century B.C. s Galileo and Thomas Harriott were the first Europeans to report these sunspots in the early 17 th century. s Sunspots are about 1,500° cooler than the surrounding photosphere and hence appear to be black.

Lab II-C: Epilogue Calculating the Size of the Sun R Sun D d r s By using the solar projection device we can calculate the linear size of the sun Projection of sun Pinhole projector  = 1.50 x 10 8 km = 1 m Green Book Q #3: Using the solar projectors and knowing that the Sun is 1.50x10 8 km away from the Earth, what is the diameter of the Sun?