TIPS FOR ASTRONOMY PHOTOGRAPHY NASHVILLE TN
TIPS FOR ASTRONOMY PHOTOGRAPHY NASHVILLE TN
Use a tripod: A stable platform is essential for taking long exposure shots of the night sky. Make sure your tripod is sturdy and can support the weight of your camera and lens.
Use a remote or cable release: To minimize camera shake, use a remote or cable release to trigger the shutter. This will help you get sharp, blur-free images.
Use a fast lens: A lens with a wide aperture (f/2.8 or wider) will allow more light to reach the camera's sensor, which is important for low light conditions. A fast lens will also allow you to use a shorter exposure time, which can help reduce the effects of atmospheric turbulence.
Use a high ISO: Increasing the ISO sensitivity of your camera can help capture more light, but it can also introduce noise into your images. Experiment with different ISO settings to find the right balance between noise and brightness.
Shoot in raw format: Shooting in raw format allows you to capture all the data from the camera's sensor and gives you more flexibility in post-processing. You can adjust the white balance, exposure, and other settings to get the best possible image.
Use image stacking: Image stacking is a technique where you take multiple exposures of the same scene and combine them in post-processing to reduce noise and increase detail. This is especially useful for deep-sky objects like galaxies and nebulae.
Use a constellation app: A constellation app can help you identify and locate objects in the night sky. There are many apps available for smartphones that can help you find your way around the sky and plan your shots.
Experiment with different exposures: Different objects in the sky will require different exposure times. Start with a base exposure and then try longer and shorter exposures to see which works best.
Have patience: Photography in astronomy can be challenging, but it's also very rewarding. Be patient and keep trying different techniques until you get the results you want.
ABOUT ASTRONOMY PHOTOGRAPHY
Astronomy photography is a unique and rewarding hobby that allows you to capture the beauty and majesty of the night sky. From the faint glow of distant galaxies to the vibrant colors of nebulae, there are endless subjects to explore and photograph.
To get started in astronomy photography, you'll need a camera with manual controls and a lens with a wide aperture (f/2.8 or wider). A tripod is also essential for keeping your camera steady during long exposures.
One of the key challenges in astronomy photography is dealing with low light levels. To compensate, you'll need to use a high ISO setting and long exposure times. This can introduce noise into your images, so it's important to find the right balance between brightness and image quality.
One way to reduce noise and increase detail is to use image stacking, which involves taking multiple exposures of the same subject and combining them in post-processing. This is especially useful for deep-sky objects like galaxies and nebulae.
In addition to a camera and lens, there are several other tools that can be helpful for astronomy photography. A constellation app can help you locate objects in the sky, and a remote or cable release can minimize camera shake when taking long exposures.
Astronomy photography requires patience and persistence, but the results can be truly stunning. Whether you're just starting out or are an experienced astrophotographer, there are always new techniques to learn and subjects to explore. So grab your camera and head out into the night sky – the possibilities are endless!
ASTRONOMY PHOTOGRAPHERS TO FOLLOW
There are many talented astronomy photographers out there, and social media is a great way to discover and follow their work. Here are a few photographers to consider following:
Babak Tafreshi: Babak is a science journalist and photographer who specializes in capturing the beauty of the night sky. He is the founder of the World at Night (TWAN) program, which promotes the appreciation of Earth's night sky and works to preserve it for future generations. You can follow him on Instagram at @babaktafreshi. https://babaktafreshi.com/
Jerry Lodriguss: Jerry is an experienced astrophotographer and author who has been capturing the beauty of the night sky for over 40 years. His website, ccdastro.com, is a wealth of information and resources for amateur astronomers and astrophotographers. You can follow him on Instagram at @jerrylodriguss. https://www.astropix.com/
Andrew Fazekas: Andrew is a science writer and photographer who has a passion for capturing the beauty of the night sky. He is the author of "The Night Sky" and "Star Trekking," and his work has been featured in numerous magazines and websites. You can follow him on Instagram at @natgeospace. https://thenightskyguy.com/
Chris Baker: Chris is a professional photographer and filmmaker who specializes in capturing the beauty of the night sky. His work has been featured in numerous publications, and he is the author of "The Art and Science of Night Photography." You can follow him on Instagram at @thechrisbaker. https://www.galaxyonglass.com/about
TIPS FOR FINDING LOCATIONS FOR STAR PHOTOGRAPHY
Here are some tips for finding locations for star photography:
Look for areas with low light pollution: To get the best views of the night sky, you'll want to find a location that is as far away from city lights as possible. Check out light pollution maps to find areas with low levels of artificial light.
Consider the weather: Clear, cloudless nights are ideal for star photography, so it's a good idea to check the weather forecast before planning your trip.
Look for locations with interesting foregrounds: Landscapes, landmarks, and other features can add interest to your star photos. Look for locations that have interesting foreground elements to add depth and context to your shots.
Consider the time of year: The position of the stars in the sky changes throughout the year, so consider the time of year when planning your trip. For example, the Milky Way is most visible in the summer months in the northern hemisphere.
Research local laws and regulations: Some areas may have laws or regulations that restrict photography or access to certain locations. Make sure to research the rules and regulations for the area you plan to visit to avoid any issues.
Plan ahead: Star photography can be challenging, so it's a good idea to do some research and plan your trip in advance. This will help you make the most of your time and get the best possible photos.
HOW TO PREDICT AND SEE THE MILKY WAY
The Milky Way is best seen from dark, rural locations that are far away from city lights. To see the Milky Way, you'll need a clear, cloudless night and a location with low levels of light pollution.
To predict when the Milky Way will be visible, you'll need to consider a few factors:
Time of year: The Milky Way is most visible in the summer months in the northern hemisphere and the winter months in the southern hemisphere. This is because the Milky Way is positioned differently in the sky throughout the year.
Time of night: The Milky Way is most visible in the hours just before dawn and after sunset when the sky is darkest.
Moon phase: A bright moon can wash out the Milky Way, so it's best to plan your trip around the new moon phase when the moon is least visible.
Once you've identified a time and location that meets these criteria, it's time to head out and start looking for the Milky Way. To help you find it, you can use a constellation app or a star chart to locate the general area of the Milky Way in the sky.
Once you've located the Milky Way, you'll need to adjust your camera settings to capture the best possible image. Use a wide-angle lens, set your aperture to f/2.8 or wider, and use a high ISO setting to capture as much light as possible. You'll also need to use a long exposure time (around 20 seconds or more) to capture the faint light of the Milky Way.
With a little planning and patience, you should be able to capture beautiful images of the Milky Way. Happy shooting!
STARGAZING APPS
Star Walk 2 Free. Available for both iOS and Android
Star Tracker. Available for iOS and Android.
SkyView Lite. Available for iOS and Android
Night Sky. Available only for iOS
Sky Map. Available only for Android
SkySafari
Stellarium Mobile
Nightshift
Yes, there are many stargazing apps available that can help you locate and identify objects in the night sky. Here are a few examples:
Star Walk 2: Star Walk 2 is a popular stargazing app that allows you to hold your phone or tablet up to the sky and see what's above you in real time. It includes a built-in compass, so you can easily locate objects in the sky, and provides information about constellations, stars, planets, and other celestial objects.
Star Tracker: Star Tracker is another popular stargazing app that uses your phone's sensors to accurately track the position of the stars and other celestial objects in the sky. It includes a comprehensive database of celestial objects and provides detailed information about each one.
SkyView Lite: SkyView Lite is a free stargazing app that allows you to point your phone at the sky to see what's above you in real time. It includes a built-in compass and provides information about constellations, stars, planets, and other celestial objects.
Night Sky: Night Sky is a stargazing app that allows you to hold your phone up to the sky and see what's above you in real time. It includes a comprehensive database of celestial objects and provides detailed information about each one.
Sky Map: Sky Map is a stargazing app that allows you to hold your phone up to the sky and see what's above you in real time. It includes a comprehensive database of celestial objects and provides detailed information about each one.
SkySafari: SkySafari is a comprehensive stargazing app that includes a database of over 300,000 celestial objects and provides detailed information about each one. It also includes features like time travel and telescope control for advanced users.
Stellarium Mobile: Stellarium Mobile is a stargazing app that allows you to see what's in the sky above you in real time. It includes a comprehensive database of celestial objects and provides detailed information about each one.
Nightshift: Nightshift is a stargazing app that helps you identify objects in the night sky by using augmented reality technology. It allows you to hold your phone up to the sky and see what's above you in real time, with labels and information overlaid on the screen.
DARK SITE FINDER
Yes, Dark Site Finder is a website that can help you find locations with low levels of light pollution for stargazing and astronomy. It uses data from the National Oceanic and Atmospheric Administration (NOAA) to map light pollution levels across the United States, allowing you to find locations with the darkest skies.
To use Dark Site Finder, simply enter your location, and the website will show you a map of light pollution levels in your area. Darker areas on the map indicate lower levels of light pollution, making them better locations for stargazing and astronomy. The website also includes a search feature that allows you to search for specific locations or addresses.
In addition to helping you find the best locations for stargazing, Dark Site Finder also provides information about the visibility of celestial objects, such as the Milky Way, and the best times to observe them. It's a useful resource for amateur astronomers and stargazers looking for the best locations to observe the night sky.
To see star constellations and other heavenly bodies themselves, and not just the Milky Way, check out a constellation/astronomy app such as SkyView.
Yes, SkyView is a stargazing and constellation app that allows you to hold your phone or tablet up to the sky and see what's above you in real time. It uses your device's sensors to track the position of celestial objects in the sky accurately and includes a comprehensive database of stars, constellations, planets, and other celestial objects.
To use SkyView, simply launch the app and hold your device up to the sky. The app will display a live view of the sky, with labels and information overlaid on the screen. You can use the app to identify constellations, stars, planets, and other celestial objects and learn more about them by tapping on the labels.
SkyView also includes a time travel feature that allows you to see how the sky will look at different times of the day or year and a telescope control feature that allows you to control compatible telescopes from your device. It's a useful resource for amateur astronomers and stargazers looking to learn more about the night sky.
HOW TO FOCUS ON STARS AND GET SHARP PHOTO
Capturing sharp, well-focused images of stars can be challenging, but you can use a few techniques to improve your results. Here are a few tips for focusing on stars and getting sharp images:
Use manual focus: Many cameras have a hard time focusing on stars automatically, so it's often best to switch to manual focus and adjust the focus manually. To do this, set your camera to manual focus mode and use the focus ring on your lens to adjust the focus.
Use a wide aperture: A wide aperture (f/2.8 or wider) will allow more light to reach the camera's sensor, which can make it easier to focus on stars. It will also allow you to use a shorter exposure time, which can help reduce the effects of atmospheric turbulence.
Use a high ISO: Increasing the ISO sensitivity of your camera can help capture more light, but it can also introduce noise into your images. Experiment with different ISO settings to find the right balance between noise and brightness.
Use image stacking: Image stacking is a technique where you take multiple exposures of the same scene and combine them in post-processing to reduce noise and increase detail. This is especially useful for deep-sky objects like galaxies and nebulae.
Use a tracking mount: A tracking mount is a device that moves the camera in sync with the movement of the stars, allowing you to take longer exposures without star trails. This can be helpful for getting sharp, blur-free images of stars.
These tips will help you to capture sharp, well-focused images of stars and other celestial objects. Happy shooting!
HOW TO GET THE PERFECT STAR FOCUS
Achieving perfect star focus can be challenging, but you can use a few techniques to improve your results. Here are some tips for getting the best possible focus on stars:
Use manual focus: Many cameras have a hard time focusing on stars automatically, so it's often best to switch to manual focus and adjust the focus manually. To do this, set your camera to manual focus mode and use the focus ring on your lens to adjust the focus.
Use a wide aperture: A wide aperture (f/2.8 or wider) will allow more light to reach the camera's sensor, which can make it easier to focus on stars. It will also allow you to use a shorter exposure time, which can help reduce the effects of atmospheric turbulence.
Use a high ISO: Increasing the ISO sensitivity of your camera can help capture more light, but it can also introduce noise into your images. Experiment with different ISO settings to find the right balance between noise and brightness.
Use image stacking: Image stacking is a technique where you take multiple exposures of the same scene and combine them in post-processing to reduce noise and increase detail. This is especially useful for deep-sky objects like galaxies and nebulae.
Use a tracking mount: A tracking mount is a device that moves the camera in sync with the movement of the stars, allowing you to take longer exposures without star trails. This can be helpful for getting sharp, blur-free images of stars.
Use a laser pointer: A laser pointer can be helpful for focusing on stars because it allows you to project a small, bright dot onto the sky. Simply point the laser at a star and adjust the focus until the star is sharp.
By following these tips, you should be able to achieve a sharp focus on stars and other celestial objects. Happy shooting!
500 RULE IS YOUR GUIDE FOR CALCULATING EXPOSURE TIME
Yes, the 500 rule is a commonly used guide for calculating the maximum exposure time for star photography. It helps to minimize the appearance of star trails, which occur when the stars appear to move across the frame due to the Earth's rotation.
To use the 500 rule, divide 500 by the focal length of your lens to get the maximum exposure time in seconds. For example, if you're using a 50mm lens, the maximum exposure time would be 500 / 50 = 10 seconds. The maximum exposure time will be shorter if you use a longer focal lens.
It's important to note that the 500 rule is just a rough guide and may not be applicable in all situations. Factors such as the camera's sensor size, the location of the celestial objects in the sky, and the level of atmospheric turbulence can all affect the maximum exposure time. It's a good idea to experiment with different exposure times to find the best balance between star trails and noise.
MULTIPLE EXPOSURES FOR ASTRONOMY PHOTOGRAPHY
Multiple exposures is a technique in photography where you take multiple photos of the same scene and combine them in post-processing to create a single image. This technique can be useful for astronomy photography because it allows you to capture more light and detail, reducing noise and increasing the dynamic range of your image.
To create multiple exposures for astronomy photography, you'll need a camera that can take multiple exposures. You'll also need a way to keep your camera steady during the exposures, such as a tripod.
To take multiple exposures, set your camera to multiple exposure mode and take a series of photos of the same scene. The number of exposures you take will depend on the camera and the scene, but it's generally a good idea to take at least two or three exposures.
In post-processing, you can use software like Adobe Photoshop or Lightroom to combine the exposures into a single image. This can be done using the "Merge to HDR" or "Merge to Panorama" functions or by manually aligning and blending the exposures.
Multiple exposures can be especially useful for capturing deep sky objects like galaxies and nebulae, which are often too faint to capture in a single exposure. By combining multiple exposures, you can capture more light and detail, resulting in a more dynamic and detailed image.
CREATING A PANORAMA OF THE MILKY WAY
Creating a panorama of the Milky Way is a great way to capture the full extent of the galaxy and create a wide, immersive image. Here are some steps you can follow to create a panorama of the Milky Way:
Plan your shot: The first step in creating a panorama of the Milky Way is to plan your shot. Consider the time of year, the location, and the weather conditions to ensure that you have the best possible conditions for capturing the Milky Way.
Set up your camera: To create a panorama, you'll need to take multiple photos of the same scene and stitch them together in post-processing. To get the best results, use a tripod to keep your camera steady and use manual exposure settings to ensure that the exposures are consistent between frames.
Take your photos: Begin by taking a photo of the center of the Milky Way. Then, rotate your camera to the left or right and take additional photos, overlapping each one by about 30% to ensure that there is enough overlap for the photos to be stitched together. Continue taking photos until you have captured the entire span of the Milky Way.
Stitch the photos together: In post-processing, use software like Adobe Photoshop or Lightroom to stitch the photos together into a single panorama. You'll need to
WHY USE ILLUMINATION WITH ASTRONOMY PHOTOGRAPHY
Using illumination in astronomy photography can help to add depth and detail to your images by illuminating the foreground elements in the scene. This can be especially useful for capturing landscape or astrophotography, where you want to include both the night sky and the terrestrial landscape in the same image.
There are several ways to use illumination in astronomy photography, including:
Using a flashlight or headlamp: A flashlight or headlamp can manually illuminate the foreground elements in your scene. This is a simple and effective way to add illumination to your image, but it requires additional setup and planning.
Using a long exposure: A long exposure can capture the light from the night sky as well as any ambient light that is present in the scene. This can be a good option if you want to capture the Milky Way or other celestial objects, but it may not provide enough illumination to capture detail in the foreground.
Using light painting: Light painting is a technique where you use a flashlight or other light source to "paint" light onto the scene during the exposure. This can be a creative and effective way to add illumination to your image, and it allows you to control exactly where the light falls in the scene.
Using a flash: A flash can be used to add illumination to the foreground elements in your scene, but it can be difficult to use in conjunction with the night sky.
ISO FOR STAR PHOTOGRAPHY
The ISO setting on your camera determines the sensitivity of the camera's sensor to light. In star photography, it's generally a good idea to use a high ISO setting to capture as much light as possible from the night sky. This will allow you to use shorter exposure times, which can help reduce the effects of atmospheric turbulence and minimize the appearance of star trails.
However, it's important to keep in mind that increasing the ISO can also introduce noise into your images. As the ISO increases, you may notice that the image becomes grainier and less detailed. It's a good idea to experiment with different ISO settings to find the right balance between noise and brightness.
In general, a good starting point for ISO in star photography is around 1600. This should provide enough sensitivity to capture the light from the stars and minimize noise while still allowing you to use relatively short exposure times. However, you may need to adjust the ISO depending on your shot's conditions and specific needs.
It's also a good idea to use the lowest ISO setting that produces acceptable results, as this will help to minimize noise and preserve the detail in your images.
STAR VIEWING LOCATIONS IN TENNESSEE
Tennessee is home to several good locations for stargazing and viewing the night sky. Here are a few suggestions for places to go stargazing in Tennessee:
Great Smoky Mountains National Park: Great Smoky Mountains National Park is one of the best places to stargaze in Tennessee. Located in the southeastern part of the state, the park is home to some of the darkest skies in the eastern United States. The park offers several stargazing programs and events throughout the year and is a great place to see the Milky Way and other celestial objects.
Pickett State Park: Located in the northern part of the state, Pickett State Park is another good location for stargazing. The park is home to some of the darkest skies in Tennessee and offers several stargazing programs and events throughout the year.
South Cumberland State Park: South Cumberland State Park is located in the southern part of the state and is home to some of the darkest skies in Tennessee. The park offers several stargazing programs and events throughout the year and is a great place to see the Milky Way and other celestial objects.
Big South Fork National River and Recreation Area: Located in the northeastern part of the state, Big South Fork National River and Recreation Area is another good location for stargazing. The park is home to some of the darkest skies in Tennessee and offers several stargazing programs and events throughout the year.
Frozen Head State Park: Located in the eastern part of the state, Frozen Head State Park is another good location for stargazing. The park is home to some of the darkest skies in Tennessee and offers several stargazing programs and events throughout the year.
These are just a few examples of good stargazing locations in Tennessee. With a little planning and some clear, dark skies, you should be able to see a wide variety of celestial objects from anywhere in the state.
NIGHT STAR VIEWING LOCATIONS IN NASHVILLE TENNESSEE
Nashville, Tennessee, is located in a relatively urban area, so it can be challenging to find good locations for stargazing. However, there are still a few places in and around the city where you can get a good night sky view. Here are a few suggestions for stargazing locations in Nashville:
Radnor Lake State Park: Radnor Lake State Park is a 1,300-acre natural area located just a few miles south of Nashville. The park is home to some of the darkest skies in the Nashville area and is a good place to see the Milky Way and other celestial objects.
Edwin Warner Park: Edwin Warner Park is a 3,200-acre park located just a few miles southwest of Nashville. The park is home to some of the darkest skies in the Nashville area and is a good place to see the Milky Way and other celestial objects.
Percy Warner Park: Percy Warner Park is a 2,684-acre park located just a few miles southwest of Nashville. The park is home to some of the darkest skies in the Nashville area and is a good place to see the Milky Way and other celestial objects.
Nashville Shores Lakeside Resort: Nashville Shores Lakeside Resort is a resort located on the shores of Percy Priest Lake, just a few miles east of Nashville. The resort is home to some of the darkest skies in the Nashville area and is a good place to see the Milky Way and other celestial objects.
These are just a few examples of stargazing locations in the Nashville area. With a little planning and some clear, dark skies, you should be
ASTRONOMY PHOTOGRAPHY GEAR
Astronomy photography can be a rewarding and challenging hobby, and having the right gear can make a big difference in the quality of your images. Here is a list of some of the gear that can be helpful for astronomy photography:
Camera: A digital camera is the most important piece of gear for astronomy photography. Look for a camera with a large image sensor (full-frame or APS-C) and good low-light performance. A camera with interchangeable lenses is also helpful, as it allows you to use different focal lengths to capture different types of celestial objects.
Lens: The lens you use will depend on the type of celestial object you want to photograph. A wide-angle lens (14-24mm) is a good choice for wide-field images of the Milky Way or constellations. A telephoto lens (200-800mm) is a better choice for close-up images of planets or the moon.
Tripod: A sturdy tripod is essential for holding your camera steady during long exposures. Look for a tripod with a good load capacity and sturdy construction.
Intervalometer: An intervalometer is a device that allows you to control the exposure time and interval between shots on your camera. This can be helpful for taking multiple exposures for image stacking or for creating time-lapse sequences.
Tracking mount: A tracking mount is a device that moves the camera in sync with the movement of the stars, allowing you to take longer exposures without star trails. This can be helpful for getting sharp, blur-free images of stars and other celestial objects.
Red flashlight: A red flashlight is useful for astronomy photography because it allows you to see in the dark without affecting your night vision. Red light is less disruptive to the human eye, making it easier to see celestial objects and navigate in the dark.
By using the right gear, you can capture high-quality images of the night sky and the celestial objects that inhabit it. Happy shooting!
Camping & Photography Equipment
HIKING GEAR FOR PHOTOGRAPHERS
If you're planning on going on a hiking trip as a photographer, it's important to have the right gear to ensure that you can safely and comfortably carry your equipment. Here is a list of some essential hiking gear for photographers:
Backpack: A good backpack is essential for carrying your photography gear on a hike. Look for a backpack with a padded, adjustable camera compartment and plenty of pockets for organizing your gear.
Tripod: A tripod is an essential gear for any photographer, and it's especially important when hiking. Look for a lightweight, compact tripod that is easy to carry and set up.
Water bottle: It's important to stay hydrated when you're hiking, especially if you're carrying a lot of gear. Bring a water bottle or hydration pack to help you stay hydrated on the trail.
Snacks: Pack some energy-rich snacks like trail mix or granola bars to help you stay fueled on the trail.
First aid kit: Accidents can happen when you're hiking, so it's a good idea to bring a basic first aid kit in case of any minor injuries.
Headlamp: A headlamp is a useful tool for hiking and photography, as it allows you to see in the dark without using your hands. Look for a headlamp with adjustable brightness and a red light setting to preserve your night vision.
Sunscreen: If you are hiking during the day, make sure to bring sunscreen to protect your skin from the sun's harmful UV rays.
By packing the right gear, you'll be better equipped to handle any challenges that come up on the trail and capture great photos along the way.
ASTRONOMY CLUBS IN TENNESSEE
If you're interested in astronomy and are looking to connect with like-minded individuals in Tennessee, there are several astronomy clubs and organizations that you can join. Here are a few examples of astronomy clubs in Tennessee:
Nashville Astronomy Club: The Nashville Astronomy Club is a group of amateur astronomers and astrophotographers based in Nashville, Tennessee. The club meets regularly to discuss astronomy topics, observe the night sky, and share tips and techniques.
East Tennessee State University Astronomy Club: The East Tennessee State University Astronomy Club is a student-run organization that promotes interest in astronomy and space science. The club hosts regular star parties and other events to observe the night sky and educate the community about astronomy.
Memphis Astronomical Society: The Memphis Astronomical Society is a group of amateur astronomers based in Memphis, Tennessee. The society hosts regular meetings and events to discuss astronomy topics, observe the night sky, and share tips and techniques.
Tri-Cities Astronomy Club: The Tri-Cities Astronomy Club is a group of amateur astronomers based in the Tri-Cities region of Tennessee. The club hosts regular meetings and events to observe the night sky, discuss astronomy topics, and share tips and techniques.
By joining an astronomy club, you can learn from experienced astronomers, observe the night sky with others, and participate in educational events and activities.
PHOTOGRAPHY GROUPS AND CLUBS IN TENNESSEE
If you're looking to connect with other photographers and learn more about photography in Tennessee, there are several groups and clubs that you can join. Here are a few examples of photography groups and clubs in Tennessee:
Nashville Photography Group: The Nashville Photography Group is a community of photographers based in Nashville, Tennessee. The group meets regularly to discuss photography topics, share tips and techniques, and participate in photo walks and other events. https://www.nashvillephotographyclub.com/
Knoxville Photography Group: The Knoxville Photography Group is a community of photographers based in Knoxville, Tennessee. The group hosts regular meetings and events to discuss photography topics, share tips and techniques, and participate in photo walks and other activities. https://www.sanp.net/
Tennessee Nature Photography Association: The Tennessee Nature Photography Association is a group of nature photographers based in Tennessee. The association hosts regular meetings and events to discuss nature photography topics, share tips and techniques, and participate in photo walks and other activities.
Memphis Photography Group: The Memphis Photography Group is a community of photographers based in Memphis, Tennessee. The group meets regularly to discuss photography topics, share tips and techniques, and participate in photo walks and other events. https://memphiscameraclub.clubexpress.com/
Photography group or club, you can connect with other photographers, learn from experienced photographers, and participate in educational events and activities.
Kenneth Purdom
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Kenneth @KennethPurdom.com
Kenneth Purdom Photography
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