Calling all eclipse admirers!
The SunSketcher team is looking for one million volunteers to capture
photos on their cell phones during the April 8
total solar eclipse. These images will help scientists
learn about the size, shape, and inner structure of the Sun.
This NASA-funded citizen science project invites anyone who will be
within the path of totality in the U.S. to take photos of the Baily’s Beads
effect, which occurs when little points of sunlight pass through the valleys in
between the mountains on the edge of the Moon. It’s the last piece of the Sun
seen before totality and the first to appear after totality. For a few seconds,
these glimmers of light look like beads along the Moon’s edge.
The Baily's Beads effect is seen as the Moon makes its final move over the Sun during the total solar eclipse on Aug. 21, 2017, above Madras, Oregon. This effect occurs when gaps in the Moon's rugged terrain allow sunlight to pass through in some places just before the total phase of the eclipse. NASA/Aubrey Gemignani
The SunSketcher app will use smartphones to automatically take a
sequence of images as Baily's Beads appear. Volunteers will simply download a
free app, activate it just before totality, set the phone down with the rear
camera pointed at the Sun, and leave it alone. The app will use the phone’s GPS
location to calculate when Baily’s Beads will be visible.
“All you need is a cell phone,”
says Gordon Emslie, SunSketcher’s project lead and professor of physics and
astronomy at Western Kentucky University. “How many science projects can you do
with the equipment you already have in your pocket?”
Emslie says the cell phone images
of Baily’s Beads will look fairly simple, but the tiny dots of light will
provide crucial data about our star.
“It’s the precise timing of when
these flashes appear and disappear that can tell you how big the Sun is and
what shape it is,” Emslie says.
Citizen scientists will activate the Sunsketcher app before the eclipse and then prop their phone against a steady surface with the rear (back-facing) camera pointed at the Sun. The app will automatically take images of Baily’s Beads at the correct times. SunSketcher/Tabby Cline
The
SunSketcher team will merge the images collected from various viewpoints on the
eclipse path to create an evolving pattern of beads. This pattern will be
compared with 3D maps that show the exact locations and distances between lunar
craters, mountains, and valleys on the surface of the Moon from NASA’s Lunar
Reconnaissance Orbiter. The combined measurements will allow researchers to
calculate the precise size and shape of the Sun based on the timing of the
images captured over 90 minutes of eclipse observations.
“The
fascinating thing about this is you can really only do this by having observers
stretched over the whole eclipse path,” Emslie explains. “No one observer can
monitor an eclipse for more than about four or five minutes.”
The Sun is
round but not a perfect sphere. It bulges out slightly along the equator with a
diameter of about 865,000 miles. Scientists suspect the shape of the Sun
changes slightly as it goes through 11-year cycles of fluctuating solar
activity. The Sun is a rotating ball of gas and plasma with complicated
internal flows of material, energy, and magnetic fields beneath the surface
that vary over that cycle and impact its overall shape.
“All of these
flows connect to the surface somehow, and so the shape of the surface is
determined by the details of the flows,” Emslie says. “If we can understand the
subsurface flows, we can better understand the Sun’s internal structure.”
The Sun’s
shape also determines its gravitational field, which affects the motions of the
planets, so measuring the Sun’s precise shape will help scientists test
theories of gravity.
This map shows the path of totality and partial
contours crossing the U.S. for the 2024 total solar eclipse occurring on April
8, 2024.
NASA/Scientific Visualization Studio/Michala Garrison;
Eclipse Calculations By Ernie Wright, NASA Goddard Space Flight Center
Participants in the SunSketcher
project can be located anywhere in the eclipse’s path of totality in the U.S.,
which stretches from Texas to Maine, on April 8. Emslie says the more people
involved, the more worthwhile the project will be. “Literally, we're looking
for a million people to play.”
For more info on SunSketcher,
visit: https://sunsketcher.org/
How to Become a SunSketcher and Be a Part of History
This animated tutorial from the SunSketcher team
explains how volunteers can capture images during the total solar eclipse using
a free cell phone app to help learn about the size, shape, and inner structure
of the Sun. Animation
credit: SunSketcher/Tabby Cline
Before the Eclipse
- Download the free app from
your phone’s app store (available now on iOS and coming soon on Android).
- Initiate the app around
five minutes before totality. No internet connection is required.
- If possible, turn on “Do
Not Disturb” in your phone’s settings to prevent vibrations that could
disturb the image sequence.
- Prop the phone against a
steady surface (such as a rock, book, phone stand, or tripod) with the
rear (back-facing) camera pointed at the Sun.
- Let it be! The app will
automatically take images of Baily’s Beads at the correct times.
- Enjoy the eclipse!
Remember to use specialized eye protection for solar viewing except during
the brief total phase of a total solar eclipse, when the Moon completely
blocks the Sun.
After the Eclipse
- The app will show a
directory of images taken and will request user permission to share them.
Only time and location data will be recorded with the images. No personally identifiable or private
information will be collected.
- Once an internet
connection is established, the images will be automatically uploaded to a
central server and a screen will appear with a thank-you message.
By Rose Brunning
Communications Lead, NASA Heliophysics Digital Resource Library (HDRL)
Source: Sketch the Shape of the Sun for Science During the Solar Eclipse (nasa.gov)
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