A new filter for safe view of solar eclipseDr. siddhant
Looking directly at the sun can lead to permanent eye injury due to damage of light-sensitive rod and cone cells within the retina. There are two ways to look at the Sun safely: by observing the sun directly through a suitable filter, or by projecting the Sun’s reflection onto a piece of paper via handmade pinhole camera/ telescope. The present correspondence shows the specification for the development of an optical instrument for the direct observation of sun. For this device, commonly available solar control glass plates can be used. The design of this filter is based on the fact that both visible and UV radiation comply with the law of Reflection and Refraction of light. As light rays appeared on the glass plate, most of the rays pass through the glass after refraction. A portion of the incident ray is mirrored and goes out to the next glass panel, where the same thing is going to happen. Through this way, multiple glass plates reflect the light ray before diffuse light is received. Owing to the fact that diffuse reflection is responsible for the ability to see most illuminated objects, we will be able to see the dull image of sun directly through this filter during the solar eclipse.
A new filter for safe view of Solar EclipseDr. siddhant
Looking directly at the sun can lead to permanent eye injury due to damage of light-sensitive rod and cone cells within the retina. There are two ways to look at the Sun safely: by observing the sun directly through a suitable filter, or by projecting the Sun’s reflection onto a piece of paper via handmade pinhole camera/ telescope. The present correspondence shows the specification for the development of an optical instrument for the direct observation of sun. For this device, commonly available solar control glass plates can be used. The design of this filter is based on the fact that both visible and UV radiation comply with the law of Reflection and Refraction of light. As light rays appeared on the glass plate, most of the rays pass through the glass after refraction. A portion of the incident ray is mirrored and goes out to the next glass panel, where the same thing is going to happen. Through this way, multiple glass plates reflect the light ray before diffuse light is received. Owing to the fact that diffuse reflection is responsible for the ability to see most illuminated objects, we will be able to see the dull image of sun directly through this filter during the solar eclipse.
Science Lab Help. Please make sure you can make the due date befor.docxpotmanandrea
Science Lab Help.
Please make sure you can make the due date before you commit
. Due date 4/30/15 no plagirism no work cited from wikipedia. APA style with refrences. Please read through and make sure you are capable of doing this entire assignment I have had a few people commit and then later tell me its above them. Thank you
This has a few parts. First you need to make a spectrospope;
How to make a spectroscope
What we will need:
1. A CD or DVD that can be sacrificed to this project. We won't damage it, but getting it back will involve destroying our spectroscope. Old software CDROMs work great, and some can be had for free from internet service providers like AOL.
2. A cardboard box. An 8 inch cube works fine, but any size that can hold a CD or DVD disk will do.
3. Two single edged razor blades. These can be found in paint or hardware stores.
4. A small cardboard tube, the kind used as a core to wrap paper on.
5. Some cellophane tape.
6. Some aluminum tape (found in hardware stores), or some aluminum foil and glue.
Our spectroscope has three main parts. There is a slit made from two razor blades, a diffraction grating made from a CD disk, and a viewing port, made from a paper tube.
To make sure that all three parts are lined up properly, we will use the CD disk as a measuring device, and mark the spots where the slit and the viewing port will go.
1. Set the CD disk on top of the box, about a half inch from the left edge, and close to the box's bottom, as shown in the photo. Use a pen to trace the circle inside the CD disk onto the box. This mark shows us where the paper tube will go.
2. Now place the paper tube on the box, centered over the circle we just drew. Draw another circle on the box by tracing the outline of the paper tube.
3. Move the paper tube over a little bit. A half-inch is probably fine -- in the photo I placed it much farther to the right than necessary, but the aluminum tape covered up the mistake nicely. Trace another circle around the paper tube. These circles will tell us where to cut the box.
4. Now cut an oval out of the box with a sharp knife. The oval will allow the paper tube to enter the box at an angle.
5. The next step is to make the slit. Turn the box one quarter turn so the oval we just cut is to the right. Using the CD disk again, draw another small circle close to the left side of the box.
6. The slit will be on the far left of the box. Cut a small rectangle out of the box at the height marked by the small circle we made with the CD disk. The rectangle should be about a half inch wide, and two inches high.
7. Carefully unwrap the two razor blades, and set them over the rectangular hole. Make their sharp edges almost touch. Tape the razor blades to the box, being careful to leave a gap between the sharp edges that is nice and even, and not wider at the top or bottom.
8. Next, set the box right-side-up, with the slit towards you. Now tape the CD d.
A new filter for safe view of solar eclipseDr. siddhant
Looking directly at the sun can lead to permanent eye injury due to damage of light-sensitive rod and cone cells within the retina. There are two ways to look at the Sun safely: by observing the sun directly through a suitable filter, or by projecting the Sun’s reflection onto a piece of paper via handmade pinhole camera/ telescope. The present correspondence shows the specification for the development of an optical instrument for the direct observation of sun. For this device, commonly available solar control glass plates can be used. The design of this filter is based on the fact that both visible and UV radiation comply with the law of Reflection and Refraction of light. As light rays appeared on the glass plate, most of the rays pass through the glass after refraction. A portion of the incident ray is mirrored and goes out to the next glass panel, where the same thing is going to happen. Through this way, multiple glass plates reflect the light ray before diffuse light is received. Owing to the fact that diffuse reflection is responsible for the ability to see most illuminated objects, we will be able to see the dull image of sun directly through this filter during the solar eclipse.
A new filter for safe view of Solar EclipseDr. siddhant
Looking directly at the sun can lead to permanent eye injury due to damage of light-sensitive rod and cone cells within the retina. There are two ways to look at the Sun safely: by observing the sun directly through a suitable filter, or by projecting the Sun’s reflection onto a piece of paper via handmade pinhole camera/ telescope. The present correspondence shows the specification for the development of an optical instrument for the direct observation of sun. For this device, commonly available solar control glass plates can be used. The design of this filter is based on the fact that both visible and UV radiation comply with the law of Reflection and Refraction of light. As light rays appeared on the glass plate, most of the rays pass through the glass after refraction. A portion of the incident ray is mirrored and goes out to the next glass panel, where the same thing is going to happen. Through this way, multiple glass plates reflect the light ray before diffuse light is received. Owing to the fact that diffuse reflection is responsible for the ability to see most illuminated objects, we will be able to see the dull image of sun directly through this filter during the solar eclipse.
Science Lab Help. Please make sure you can make the due date befor.docxpotmanandrea
Science Lab Help.
Please make sure you can make the due date before you commit
. Due date 4/30/15 no plagirism no work cited from wikipedia. APA style with refrences. Please read through and make sure you are capable of doing this entire assignment I have had a few people commit and then later tell me its above them. Thank you
This has a few parts. First you need to make a spectrospope;
How to make a spectroscope
What we will need:
1. A CD or DVD that can be sacrificed to this project. We won't damage it, but getting it back will involve destroying our spectroscope. Old software CDROMs work great, and some can be had for free from internet service providers like AOL.
2. A cardboard box. An 8 inch cube works fine, but any size that can hold a CD or DVD disk will do.
3. Two single edged razor blades. These can be found in paint or hardware stores.
4. A small cardboard tube, the kind used as a core to wrap paper on.
5. Some cellophane tape.
6. Some aluminum tape (found in hardware stores), or some aluminum foil and glue.
Our spectroscope has three main parts. There is a slit made from two razor blades, a diffraction grating made from a CD disk, and a viewing port, made from a paper tube.
To make sure that all three parts are lined up properly, we will use the CD disk as a measuring device, and mark the spots where the slit and the viewing port will go.
1. Set the CD disk on top of the box, about a half inch from the left edge, and close to the box's bottom, as shown in the photo. Use a pen to trace the circle inside the CD disk onto the box. This mark shows us where the paper tube will go.
2. Now place the paper tube on the box, centered over the circle we just drew. Draw another circle on the box by tracing the outline of the paper tube.
3. Move the paper tube over a little bit. A half-inch is probably fine -- in the photo I placed it much farther to the right than necessary, but the aluminum tape covered up the mistake nicely. Trace another circle around the paper tube. These circles will tell us where to cut the box.
4. Now cut an oval out of the box with a sharp knife. The oval will allow the paper tube to enter the box at an angle.
5. The next step is to make the slit. Turn the box one quarter turn so the oval we just cut is to the right. Using the CD disk again, draw another small circle close to the left side of the box.
6. The slit will be on the far left of the box. Cut a small rectangle out of the box at the height marked by the small circle we made with the CD disk. The rectangle should be about a half inch wide, and two inches high.
7. Carefully unwrap the two razor blades, and set them over the rectangular hole. Make their sharp edges almost touch. Tape the razor blades to the box, being careful to leave a gap between the sharp edges that is nice and even, and not wider at the top or bottom.
8. Next, set the box right-side-up, with the slit towards you. Now tape the CD d.
The Navy Misawa officers and chiefs are hosting their annual Turkey Feed, Wednesday, Nov. 27, from 11 a.m. to 1 p.m. at Hangar 926. All are welcome for this ginormous Thanksgiving feast with all the trimmings.
The NAF Misawa Holiday Party is scheduled for Dec. 6th at the Misawa E-Club at 6 p.m. Tickets are $20 per person; check out the attached flyer to learn more.
The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
For more information, visit-www.vavaclasses.com
The Roman Empire A Historical Colossus.pdfkaushalkr1407
The Roman Empire, a vast and enduring power, stands as one of history's most remarkable civilizations, leaving an indelible imprint on the world. It emerged from the Roman Republic, transitioning into an imperial powerhouse under the leadership of Augustus Caesar in 27 BCE. This transformation marked the beginning of an era defined by unprecedented territorial expansion, architectural marvels, and profound cultural influence.
The empire's roots lie in the city of Rome, founded, according to legend, by Romulus in 753 BCE. Over centuries, Rome evolved from a small settlement to a formidable republic, characterized by a complex political system with elected officials and checks on power. However, internal strife, class conflicts, and military ambitions paved the way for the end of the Republic. Julius Caesar’s dictatorship and subsequent assassination in 44 BCE created a power vacuum, leading to a civil war. Octavian, later Augustus, emerged victorious, heralding the Roman Empire’s birth.
Under Augustus, the empire experienced the Pax Romana, a 200-year period of relative peace and stability. Augustus reformed the military, established efficient administrative systems, and initiated grand construction projects. The empire's borders expanded, encompassing territories from Britain to Egypt and from Spain to the Euphrates. Roman legions, renowned for their discipline and engineering prowess, secured and maintained these vast territories, building roads, fortifications, and cities that facilitated control and integration.
The Roman Empire’s society was hierarchical, with a rigid class system. At the top were the patricians, wealthy elites who held significant political power. Below them were the plebeians, free citizens with limited political influence, and the vast numbers of slaves who formed the backbone of the economy. The family unit was central, governed by the paterfamilias, the male head who held absolute authority.
Culturally, the Romans were eclectic, absorbing and adapting elements from the civilizations they encountered, particularly the Greeks. Roman art, literature, and philosophy reflected this synthesis, creating a rich cultural tapestry. Latin, the Roman language, became the lingua franca of the Western world, influencing numerous modern languages.
Roman architecture and engineering achievements were monumental. They perfected the arch, vault, and dome, constructing enduring structures like the Colosseum, Pantheon, and aqueducts. These engineering marvels not only showcased Roman ingenuity but also served practical purposes, from public entertainment to water supply.
Palestine last event orientationfvgnh .pptxRaedMohamed3
An EFL lesson about the current events in Palestine. It is intended to be for intermediate students who wish to increase their listening skills through a short lesson in power point.
Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
Embracing GenAI - A Strategic ImperativePeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
Model Attribute Check Company Auto PropertyCeline George
In Odoo, the multi-company feature allows you to manage multiple companies within a single Odoo database instance. Each company can have its own configurations while still sharing common resources such as products, customers, and suppliers.
Synthetic Fiber Construction in lab .pptxPavel ( NSTU)
Synthetic fiber production is a fascinating and complex field that blends chemistry, engineering, and environmental science. By understanding these aspects, students can gain a comprehensive view of synthetic fiber production, its impact on society and the environment, and the potential for future innovations. Synthetic fibers play a crucial role in modern society, impacting various aspects of daily life, industry, and the environment. ynthetic fibers are integral to modern life, offering a range of benefits from cost-effectiveness and versatility to innovative applications and performance characteristics. While they pose environmental challenges, ongoing research and development aim to create more sustainable and eco-friendly alternatives. Understanding the importance of synthetic fibers helps in appreciating their role in the economy, industry, and daily life, while also emphasizing the need for sustainable practices and innovation.
Acetabularia Information For Class 9 .docxvaibhavrinwa19
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Solar Eclipse Viewing Guide
1. National Astronomical Observatory of Japan
National Astronomical Observatory of Japan / National Institutes of Natural Sciences
Solar Eclipse Viewing Guide
Planning: International Year of Astronomy 2009 Japan Committee
Production: “International Year of Astronomy 2009 Solar Eclipse Viewing
Guide” Production team
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How to Enjoy a Solar Eclipse
Viewing the Sun through a Specially Designed Solar Filter
To view a solar eclipse, you need a specially designed solar filter, such as the one used in
eclipse glasses. The following explains how to use a filter and gives examples of products.
Example of how to use specially designed solar filter
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Specially Designed Solar Filter
Examples of specially designed solar filter
How to Use
1. In order to avoid direct sunlight entering your eyes, wear a brimmed hat when viewing
a solar eclipse.
2. Hold the solar filter with one hand holding each side, wrapping your fingers around
the edge of the device.
3. Bring the light shield of the solar filter as close to your eyes as possible.
4. Only view the Sun through the filter and only for a short period of time. Take several
breaks during the observation.
Attention
1. Please read carefully and follow the instructions on how to use the solar filter.
2. Solar filters are created to protect your eyes, so please handle them with care. Before
use, please make sure that the shield is not missing or has not been damaged in any
way.
3. Do not stare for long periods at the Sun. Look through the filter briefly and then look
away before resuming your viewing.
4. Please read “Things You Must Not Do When Using a Solar Filter (Observation Risks).”
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Baader Planetarium’s AstroSolar™ Safety Film
Thin sheet-type shields, such as Baader Planetarium’s AstroSolar™ Safety Film, are
now available on the market. They can be cut to various sizes to be placed in filter rims or
slide mounts. When hand-crafting a solar filter using this product, please assemble it
carefully to prevent accidental exposure to direct sunlight.
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Example of a handmade solar filter (shield placed in a paper slide mount)
Please make sure that there are no gaps, holes or damage to the filter that would
expose your eye to direct sunlight.
Viewing a Projected Image of the Sun
There are several ways to observe solar eclipses other than using a solar filter. Here we
will introduce three methods: pinhole crafting, sunbeams streaming through leaves, and
mirrors.
The Pinhole Projection Method
A “Pinhole” is a tiny hole made with a tool, such as a needle. By using a pinhole, you can
project the shape of a solar eclipse onto the ground, in a box, and on other flat surfaces.
Here we will introduce four types of handmade devices. The pinhole is a method you
should only use to allow the viewing of a projected image of the Sun. As there is a risk of
eyesight loss, do not look at the Sun directly through a pinhole.
[Caution] Do not look at the Sun directly through a pinhole as there is a risk of
eyesight loss.
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Making a Hole on a Card
Pick a card and make a tiny hole in the middle with a tool, such as a pin, a needle, or a
gimlet. Then project an image of the Sun onto a piece of white paper.
1. Make a tiny hole in the card.
2. View the shadow. It is easy to see the image if you project it onto white paper or a
wall.
3. Observe different images of the Sun by changing the distance between the card and
the white paper or changing the size of the hole.
Create Letters through Pinholes
Takeshi Hirano, who traveled to Turkey to view a solar eclipse in 2006, used this method.
It is a fun and different way to enjoy viewing a solar eclipse.
The letters are written by using many pinholes on a sheet of paper
The letters are written by using many pinholes on a sheet of paper. The holes are
laid out evenly to achieve a neat finish. The shape of the solar eclipse is projected through
the pinholes.
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Project an Image of the Sun in a Tube
Project an Image of the Sun in a Tube
This is a way to project an image of the Sun in a handmade tube device, using the
same principle used for pinholes. This device can be created by using a variety of tubular-
shaped items, such as snack containers or the cardboard tubes used for cling film. Here is
an example using a snack container. This is the method referred to and introduced in the
“Eclipse Hunter’s Guide” (INFAS Publications), a book certified by the International Year of
Astronomy 2009 Japan Committee.
1. Prepare two tubular containers. With care, remove the bottom of one container with
a knife.
2. Connect one tube without a bottom securely with tape to another with a bottom to
make a longer tube.
3. Prepare a sheet of aluminum foil, and make a small hole (approximately 1mm in
diameter) in it with a pin. This hole is the point at which the sunlight will pass through,
so it is very important to make one neat hole. You can use the lid from a cup noodle
container as the aluminum sheet. Cut out a small window in the center of the tube lid
and place the aluminum sheet with the pinhole in it.
4. Cut out an observation window on the side of the bottom part of the tube. Hold up
the tube and aim the pinhole toward the Sun until you can see a round image of the
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Sun at the bottom of the tube. The size of the image using this tube (two connected
tubes) is approximately 5mm in diameter. Place the extra tube lid on the bottom of
the tube so that it becomes thicker; this will improve the viewing of the image.
Advanced Version
1. Here is an advanced version of the tube device. Connect several tubes to make
a long device. When connecting, do not forget to remove the bottom of each tube to
allow sunlight to pass through the device unhindered. (A card with a hole is attached
to the top end of the tube in the photo.)
2. The longer the tube, the bigger the projected image of the Sun. If it is too dark
to see, the hole at the top end of the tube can be slightly enlarged.
Project an Image of the Sun in a Big Box
With a big box, you can make the projected image of the Sun a little larger. A box for a
large astrometric telescope is a good example of an appropriate box to use.
The measurement of the diameter of the image of the Sun will be 1/100 of the
distance from the hole to the projected point.
Make a 1-2mm hole in the top of the box and aim the hole at the Sun. When you
see the image of the Sun projected in the box, you will see an approximately 1cm image
of the Sun if the length of the box is 1m.
The image will be clearer if you darken the inside of the box and attach a piece of
white paper to act as a screen. If it is too dark due to the small size of the hole, enlarge
the hole little by little until you are satisfied.
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An example of a handmade box device made of a big box. Please do not conduct solar
eclipse viewing in the middle of the road.
Attach a piece of white paper inside the box to act as a screen and aim the hole
toward the Sun.
If sunlight comes through a tiny hole in the wall of a dark room, the same thing will
happen. It is the same method of viewing solar eclipses that has been employed since the
16th century.
The Method of Viewing Sunbeams Streaming through Leaves Projected on the Ground
During a partial solar eclipse, you can observe the shadows of leaves and branches from a
tree reflected on the ground or on walls. The sunlight that slips through the tiny gaps
between leaves and branches becomes “sunbeams streaming through leaves” and is
projected in the same way as that of pinhole. Although the shapes of the gaps vary, the
sunbeams reflect the shape of the Sun, which is the source of the light. Aristoteles
discovered and wrote about this phenomenon at the time of a solar eclipse in the 4th
century B.C. Without any special tools or equipment, you can enjoy viewing solar eclipses
directly using this method.
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The Mirror Projection Method
When projecting the reflection of sunlight onto a wall with a mirror, you can observe the
shape of a solar eclipse regardless of the shape of the mirror. Use a small mirror to reflect
the sunlight and project it onto a flat surface, such as the wall of a building, in the shade.
This easy method works well when many people are viewing the eclipse together.
Move slowly away from the wall until a round shape of the Sun is projected on the
wall.
Try using different sizes of mirrors or covering part of a mirror to see the difference
in the projections. At the same distance from the mirror to the wall, larger mirrors project
the Sun more brightly but the details are blurrier. On the contrary, smaller mirrors project
a darker image but with more clarity.
Viewing with a Telescope
Some telescopes available on the market are not designed to be aimed toward the Sun. It
is very dangerous to use them in the wrong way. Please read the product’s instructions
carefully before use.
With a telescope designed to allow solar viewing, you can see details on the surface
of the Sun, such as sunspots. Sunspots indicate solar activity, and increase and decrease on
an approximately 11-year cycle. When solar activity is low, it may be difficult to see
sunspots on the day of a solar eclipse.
During a partial solar eclipse, pay close attention to the borderline between the Sun
and the Moon. When observing the rim of the Moon closely with a telescope, you may be
able to see craters on the Moon surface.
Solar Projection Screen Method
Preparing a Solar Projection Screen
This is also called the “projection method” and is a way of projecting an image of the Sun
onto a Solar Projection Screen when viewing with a telescope. As this is a way to view
the image on a board without looking directly into the path of light, it is possible for many
to view at the same time. It is also a relatively safe way, as you do not look directly at the
Sun.
First, check carefully in the catalog or instruction manual if the telescope you intend
to use is designed to facilitate use of a Solar Projection Screen. If you are not sure, it is a
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good idea to ask the manufacturer or specialist shop. If a Solar Projection Screen is
included in the telescope set, there is no problem.
When using a Solar Projection Screen, fix an aperture cap onto the objective lens of
the telescope. Neutral density filters are not required. Use an eyepiece that is designed for
solar viewing. To view the entire solar photosphere, set the telescope at 40 to 50-fold
magnification.
Most tubular framework telescopes have a viewfinder. A viewfinder is equipped with
a lens, which can cause fire, burns, and damage. Therefore, it is safer to either use a
viewfinder that does not focus light (spot finder of the same magnification) or simply
remove the viewfinder.
A Solar Projection Screen must be installed near the eyepiece correctly with the
weight balance of the telescope adjusted.
Example of a Solar Projection Screen in use (The model in the photo is Vixen’s “Solar
Observation Set 2009”)
Focusing on and observing the Sun
In order to focus on the Sun, pay attention to its shadow that the telescope projects onto
the ground and look for the point where the shadow is the smallest. Do not look through
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the telescope. Even if the viewfinder being used is not designed to focus light, do not
focus on the Sun by looking through the viewfinder, but look at its shadow that the
telescope projects onto the ground.
Once the Sun is focused on, adjust the focus in order to have a sharper image of
the rim and the sunspots projected onto the board. It is difficult to have a good viewing if
the telescope is fixed, as the Sun moves quite quickly and will quickly be out of its line of
sight due to the Earth’s movement. Check the direction (west) of the Sun’s movement
and follow it with fine focal adjustment.
Draw a circle on a sheet of white paper and place it on the projection board so
that you can observe and record the location of sunspots and the shape of partial
eclipses. Sunspots have been observed through the projection method since the age of
Galileo nearly 400 years ago. It was considered important to collect this basic data to
observe solar activity in the past.
Please read “Things You Must Not Do When Using a Solar Projection
Screen” (Observation Risks: p21)
Solar Filter Method
This is the method of fixing a specially designed solar filter over the objective lens of a
telescope.
With a model that includes a special filter (e.g. “Skybird AT-MACS - 80L”) in the
package, and with the solar filter secured on the end of the telescope, it is possible to
view the Sun directly through the eyepiece.
With other models, you can use the “Baader Planetarium’s AstroSolarTM Safety Film
(Visual ND5)” to cover the end of the telescope completely. As AstroSolarTM Safety Film
is thin film, you need to hand-craft a sturdy cell to fix to the telescope.
Please make sure there are no gaps, breakages, or holes in the film. When fixing film
to the end of the telescope, secure it tightly with tape so it will not be displaced by the
wind or by a change in the telescope’s position. As viewfinders equipped with lenses can
be the cause of fire, burns, and damage to devices, it is safer to use a viewfinder that does
not focus light (spot viewfinder of the same magnification) or remove it.
Make sure to fix a solar filter before focusing on the Sun. Focus on the Sun in the
same way that you would focus on other celestial objects. However, it is quicker to focus
on the Sun by looking at the shadow it projects on the ground.
Do not look at the Sun for long periods. Take several breaks during an observation.
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Some models include a special filter in the package. (The model in the photo is Skybird
AT-MACS - 80L)
If it is a little too bright when you look through the filter, tightly fix the aperture cap
onto the frame of the filter.
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Enjoying a Solar Eclipse through Images or Footage
There are some organizations that conduct live broadcasts of solar eclipses.
Internet broadcasting
Internet broadcasting is very convenient if it is difficult to view a solar eclipse due to bad
weather or for other reasons.
Television broadcasting
There are special programs and real-time broadcasting on television.
Satellite images
Images of the solar eclipse that was viewed in parts of Asia on July 22, 2009, were
captured by Japanese Geostationary Meteorological Satellite “Himawari” and shown on
the Meteorological Agency’s website.
Footage viewing events
There are various places and events where live images are made available, such as science
museums and other special locations.
*Some event venues only allow admission by prior application and in limited numbers.
Please inquire beforehand if you will be admitted without prior application.
Enjoying a Solar Eclipse Outside
Participation in Observation Meetings or Solar Eclipse Related Events
Some solar eclipse viewing events are planned at various locations. For details, such as
conditions for participation, please contact the organizers.
Many facilities associated with astronomy, such as science museums, observatories
and planetariums, not only organize events on the solar eclipse day but also provide
information about solar eclipses, including instructions, videos and displays on their
viewing, which help viewers get the most out of the experience.
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To Avoid Risks
It is very important to understand the risks associated with solar (eclipse) viewing and pay
special attention to safety. Please be aware that even the smallest mistake or lack of
understanding can cause serious accidents or health problems.
Risks Associated with Solar Viewing: Basic Knowledge
The Sun is an extremely bright celestial object.
The Sun is approximately 120 billion times brighter than stars of the first magnitude and
460,000 times brighter than a full moon. We often feel that the light of a full moon at
night is dazzling when we stare at it, so the brightness of the Sun is really beyond our
imagination.
Therefore, please be aware that there is a real risk of causing serious damage to the
eyes if you stare directly at the Sun with the naked eye even for the shortest time (less
than one second). You need to know that retina problems (*) or eyesight loss could occur
through incorrect viewing.
* The retina problem caused by solar eclipse viewing is called “solar eclipse retinopathy”.
Cases are reported after every solar eclipse.
“Not bright = Safe” is completely wrong.
The Sun may look dark through sunglasses or a black plastic board. This is only because
the visible light (visible to the human eye) has been weakened. Radiation harmful to the
eyes is usually not shaded. Please pay attention to the fact that the human eye could
seriously be damaged when you are not aware of.
To view the Sun or a solar eclipse safely, it is highly advisable to use a specially
designed solar (eclipse) viewing device, such as solar eclipse glasses, that have been safety-
approved.
It is dangerous to view the Sun for long periods.
Avoid looking at the Sun for long periods even when using a specially designed solar
(eclipse) viewing device. The devices can NOT block 100% of the radiation harmful to the
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eyes. They can only weaken the radiation from the Sun. Take adequate breaks during an
observation and make sure to limit continuous viewing to 2 to 3 minutes at a time.
Things you Must Not Do (Viewing with Risks)
Do not look at the Sun directly.
Do not look directly at the Sun with the naked eye. It is very dangerous to look at the
Sun directly, even with sunglasses. Make sure to use specially designed solar (eclipse)
viewing devices, such as solar eclipse glasses.
It is very dangerous to look at the Sun directly even with sunglasses
Do not look at the Sun with standard telescopes or binoculars.
[Warning] You must not look at the Sun directly with standard telescopes or binoculars
as there is a serious risk of blindness.
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You must no look at the Sun directly with standard telescope or binoculars.
Do not look at the Sun through the optical viewfinder of a camera.
If you try to take a photo of a solar eclipse and look through the viewfinder of a camera
aimed at the Sun, you may be at risk of blindness.
Risks of Darkening Methods
Even when you do not feel the Sun is too bright, there could be the risk of serious
damage to the eyes. Please note a possibility that the radiation harmful to the eyes is
insufficiently cut off and/or gets through even when you use a darkening method. Some of
the following may also pose safety problems.
Do NOT look at the Sun though:
• Black or colored plastic boards
• Acrylic boards and plastic boards
• CDs and DVDs
• Smoked glasses
• Black plastic bags, such as garbage bags and snack bags
• Neutral density (ND) filters for photography
• Glass plates with candle soot
• Black part of developed photo film
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Do not look at the Sun through black or colored plastic boards.
Do not look at the Sun through neutral density (ND) filters for photography.
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Use of some of the above may not involve risk if used properly with correct
understanding. When using any of the above for solar viewing, please be sure to follow the
instructions given by a person with full knowledge of solar viewing. It is very dangerous to
conduct viewing without thorough knowledge of safe viewing methods.
Things You Must Not Do When Viewing with the Naked Eye
through a Solar Filter (Viewing Risks)
Do not combine with a telescope or binoculars
Solar filters used for viewing with the naked eye are not designed to be combined for use
with optical instruments, such as telescopes, binoculars and cameras. If you view with such
an instrument, the entry of light that has not been factored into the design could lead to
serious eye problems. There is also the risk of damage or breakage to solar filters or
optical instruments.
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Do not combine solar filters designed to be used with the naked eye with binoculars,
telescopes or cameras.
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Do not look at the Sun for long periods.
Even when viewing the Sun through a specially designed solar filter, do not look at the Sun
for long periods and take adequate breaks during an observation. Please remember that 2
to 3 minutes is the limit for any stretch of continuous viewing.
In order to take adequate breaks during an observation, it is advisable to hold solar
filters in your hands, not to wear them as you would wear eyeglasses.
Others
• Do not walk or ride a bicycle while wearing a solar filter.
• Do not use damaged solar filters.
• Do not disassemble solar filters.
Precautions for the Combined Use of a Telescope and a
Solar Projection Screen (Viewing Risks)
Do not use telescopes and their accessories that are not designed for solar viewing.
Some models are not designed to allow a Solar Projection Screen to be installed or
simply not suitable for solar viewing. Some eyepiecees are also not suitable for solar
viewing.
Please check if the telescope or its accessories, such as eyepiece, that you intend to
use are suitable for solar viewing by reading the instruction manual carefully or by asking
the manufacturer or retailer.
Viewing Precautions
Remove viewfinders when not in use to avoid someone looking through them by mistake.
When you focus on the Sun, make sure to do so by looking at its shadow projected onto
the ground, never directly through the telescope.
Please make sure that observers do not place their hand or face in the path of the
light to the Solar Projection Screen.
If a person in a position of responsibility has to leave for any reason, make sure to attach
the cap on the lens of the telescope, or adjust the focus away from the Sun.
When using a Solar Projection Screen, do not place your hand or face in the path of
light.
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It is very dangerous to insert body parts into or to look through the path of light.
If you conduct solar viewing over a long period, the telescope or its accessories may
become damaged due to heat. If you find any abnormalities to the telescope or its
accessories, stop the viewing immediately.
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Other Cautions
Be careful of heat stroke.
Please be very careful to avoid heat stroke when conducting a solar (eclipse) viewing in
the scorching outdoor heat. Make sure to always wear a hat, drink plenty of fluids, and
take occasional breaks in the shade.
Precautions Regarding Solar Eclipse Viewing
It is only possible to view a solar eclipse directly with the naked eye during a total eclipse
(when the Sun is hidden completely behind the Moon.) You will not see anything if you
view it through a solar filter.
You can also view the “diamond ring” effect, which appears for a few seconds just
before or just after a total eclipse, with the naked eye. You can only look at the Sun with
the naked eye up to this point.
During a partial eclipse (when the Sun is not completely hidden behind the Moon),
you need to use a solar filter, such as solar eclipse glasses. You also need a solar filter after
viewing a total eclipse and the diamond ring effect, as the extremely strong light appears
quickly as a flash. Do not continue viewing directly with the naked eye. Please use a solar
filter.
[Caution] Never look at the Sun directly with the naked eye during a partial solar
eclipse. (A solar filter, such as solar eclipse glasses, is definitely necessary for your
safety.)
When viewing, please be sure to follow the instructions given by a person with full knowledge of solar
viewing to reduce risk. This Solar Eclipse Viewing Guide was designed to provide basic information for
many people to enjoy viewing a solar eclipse, such as the one witnessed in parts of Japan on July 22,
2009.
Planning: International Year of Astronomy 2009 Japan Committee
Production: “International Year of Astronomy 2009 Solar Eclipse Viewing Guide” Production team
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