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  • Comet C/2020 F3 (NEOWISE) shines in the twilight sky over Skagit Bay in this view from Camano Island, Washington. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Comet_Neowise_C2020F3_Skagit-Bay_851...jpg
  • Comet C/2020 F3 (NEOWISE) and a meteor shine in the night sky over Mount Rainier in Washington state. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago. Mount Rainier, which has a summit of 14,411 feet (4,392 meters), is the highest mountain in Washington state and largest volcano in the Cascade Range.
    Rainier_Comet-Neowise_High-Rock_8277.jpg
  • Comet C/2020 F3 (NEOWISE) shines in the morning sky alongside trees near a beach on Camano Island, Washington. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Comet_Neowise_C2020F3_Camano_8519.jpg
  • Mount Rainier and Comet C/2020 F3 (NEOWISE) are reflected on Reflection Lake in Mount Rainier National Park, Washington. Mount Rainier, which has a summit of 14,411 feet (4,392 meters), is the highest mountain in Washington state and largest volcano in the Cascade Range. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Rainer_Comet-Neowise_Reflection-Lake...jpg
  • Comet C/2020 F3 (NEOWISE) shines bright in the morning sky near a tall mountain hemlock tree in Mount Rainier National Park, Washington. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Comet_Neowise_C2020F3_Evergreen_8151.jpg
  • Mount Rainier and Comet C/2020 F3 (NEOWISE) are reflected on Reflection Lake in Mount Rainier National Park, Washington. Mount Rainier, which has a summit of 14,411 feet (4,392 meters), is the highest mountain in Washington state and largest volcano in the Cascade Range. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Rainer_Comet-Neowise_Reflection-Lake...jpg
  • Mount Rainier, the tallest mountain in the Cascade Range, is rendered in near silhouette as Comet C/2020 F3 (NEOWISE) and noctilucent clouds provide some light in the twilight sky in this view from High Rock in Washington state. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Rainier_Comet-Neowise_Noctilucent-Cl...jpg
  • Comet C/2020 F3 (NEOWISE) shines bright over a forested ridge in Mount Rainier National Park, Washington. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Comet_Neowise_C2020F3_Forest-Ridge_8...jpg
  • Comet C/2020 F3 (NEOWISE) shines bright in the morning sky on July 9, 2020. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Comet_Neowise-C2020F3_8097.jpg
  • Comet C/2020 F3 (NEOWISE) shines in the sky above the Columbia National Wildlife Refuge near Othello, Washington, casting its reflection onto McMannaman Lake. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    WA_Columbia-NWR_Comet-NEOWISE_8737.jpg
  • Comet C/2020 F3 (NEOWISE) shines in the sky above the Columbia National Wildlife Refuge near Othello, Washington, casting its reflection onto McMannaman Lake. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    WA_Columbia-NWR_Comet-NEOWISE_8072.jpg
  • Mount Rainier, the tallest mountain in the Cascade Range, is rendered in near silhouette as Comet C/2020 F3 (NEOWISE) and noctilucent clouds provide some light in the twilight sky in this view from High Rock in Washington state. Comet NEOWISE is a long-period comet and its current orbital path will take about 6,800 years to complete. Its nucleus is about 3 miles (5 kilometers) across and is covered with sooty, dark particles left over from its formation near the birth of our solar system 4.6 billion years ago.
    Rainier_Comet-Neowise_Noctilucent-Cl...jpg
  • Comet Lovejoy C/2014 Q2 passes about 50 million miles from Earth in this view of the night sky from North Bend, Washington. The comet's green coma results from molecules of diatomic carbon flourescing in ultraviolet sunlight. The tail is faint because this comet is producing very little dust. It's a long-period comet; it won't be seen again from Earth for about 8,000 years. Pleiades is the bright star cluster in the upper left corner of the image.
    CometLovejoy_C2014+Q2_2576.jpg
  • Comet McNaught, one of the brightest comets to pass by Earth in decades, shines bright against the reddish skies after sunset. The comet passed within 16 million miles of the sun - half the distance of the closest planet to the sun - which is why it's so bright. This image was captured in January 2007 from Pierce County, Washington state.
    CometMcNaught_4960.jpg
  • A bright double rainbow forms in the spray at the base of Comet Falls in Mount Rainier National Park, Washington. A 320 feet (98 meters), Comet Falls is one of the tallest waterfalls in the park. Comet Falls was so named because from certain angles, it resembles the head and tail of a comet.
    Rainier_CometFalls_8560.jpg
  • Comet Falls, so named because it resembles a comet's tail, glows underneath the night sky. The waterfall, which is located in Mount Rainier National Park, Washington, is lit by the full moon. Comet Falls, at 320 feet (98 meters), is one of the tallest waterfalls in the park.
    Rainier_CometFallsNight_9233.jpg
  • Comet Falls, so named because it resembles a comet's tail, glows underneath the night sky. The waterfall, which is located in Mount Rainier National Park, Washington, is lit by the full moon. Comet Falls, at 320 feet (98 meters), is one of the tallest waterfalls in the park..
    Rainier_CometFallsNight_9237.jpg
  • Comet Falls, so named because it resembles the tail of a comet, is one of the tallest waterfalls in Mount Rainier National Park, Washington. Comet Falls drops 320 feet (98 meters). It is located in the Van Trump Park area of national park, which is named for one of the first men to summit the mountain.
    Rainier_CometFalls_8555.jpg
  • A bright fireball meteor from the Perseid meteor shower streaks across the sky over Mount Shuksan in the North Cascades of Washington state. The Perseids are an annual meteor shower that occurs in August when Earth passes through the debris of Comet 109P/Swift-Tuttle. The meteors are comet debris burning up in the Earth's atmosphere.
    Shuksan_Perseid-Meteor_1137.jpg
  • A meteor from the Perseid meteor shower streaks along the Milky Way, which appears to erupt from Mount Baker in Washington state. The Perseids are an annual meteor shower that occurs in August when Earth passes through the debris of Comet 109P/Swift-Tuttle. The meteors are comet debris burning up in the Earth's atmosphere. Mount Baker, which stands 10,781 feet (3,286 meters), is an active volcano with the second-most thermally active crater in the Cascade Range.
    Baker_Milky-Way_Perseid-Meteor_0796.jpg
  • Several Perseid meteors, including two especially bright ones, streak across the sky over Mount Shuksan in the North Cascades of Washington state. The Perseids are an annual meteor shower that occurs in August when Earth passes through the debris of Comet 109P/Swift-Tuttle. The meteors are comet debris burning up in the Earth's atmosphere.
    Shuksan_Perseid-Meteor_0898.jpg
  • A meteor from the Perseid meteor shower streaks across the sky over Mount Shuksan in the North Cascades of Washington state. The Perseids are an annual meteor shower that occurs in August when Earth passes through the debris of Comet 109P/Swift-Tuttle. The meteors are comet debris burning up in the Earth's atmosphere.
    Shuksan_Perseid-Meteor_1180.jpg
  • A meteor from the Perseid meteor shower streaks across the sky over Mount Shuksan in the North Cascades of Washington state. The Perseids are an annual meteor shower that occurs in August when Earth passes through the debris of Comet 109P/Swift-Tuttle. The meteors are comet debris burning up in the Earth's atmosphere.
    Shuksan_Perseid-Meteor_1195.jpg
  • Two bright Perseid meteors streak across the night sky above Table Mountain in the North Cascades of Washington state. The Perseids are an annual meteor shower that occurs in August when Earth passes through the debris of Comet 109P/Swift-Tuttle. The meteors are comet debris burning up in the Earth's atmosphere. Table Mountain is a 5,742-foot (1,750-meter) peak that is comprised of an ancient, thick lava flow that pre-dates flows from the neighboring active volcano, Mount Baker.
    Table-Mountain_Perseid-Meteor_1093.jpg
  • A meteor, part of the Camelopardalid Meteor Shower, streaks toward the Milky Way over Swakane Canyon in central Washington state. The weak meteor shower, which originated from dust from comet 209P/LINEAR, resulted in a peak display of between 5 and 10 meteors per hour in late May, 2014.
    MeteorShower_Camelopardalid_SwakaneC...jpg
  • A couple of bright meteors, part of the Camelopardalid Meteor Shower, streak across Swakane Canyon in central Washington state. The weak meteor shower, which originated from dust from comet 209P/LINEAR, resulted in a peak display of between 5 and 10 meteors per hour in late May, 2014.
    MeteorShower_Camelopardalid_SwakaneC...jpg
  • A natural nighttime pillar of light known as the Zodiacal Light shines above and is reflected in Crater Lake, Oregon. The Zodiacal Light results from the sun shining on dust particles left behind by comets. The dust particles - the largest of which are believed to be just 0.3 mm and miles from its nearest neighboring particle - orbit the sun in a range from Mars to beyond Jupiter. Visible year-round in the tropics, the Zodiacal Light is best viewed immediately around the spring and fall solstice farther from the equator. The planet Venus, the brightest object in the sky, is visible near the peak of the Zodiacal Light and is also reflected in Crater Lake. The Milky Way, visible on the right, intersects with the Zodiacal Light at the top-center of the image. Crater Lake, which is actually a caldera, formed when Mount Mazama erupted violently about 7,700 years ago, causing its summit to collapse. Subsequent eruptions sealed the caldera, trapping rain water and snowmelt, forming the lake, which has a maximum depth of 1,949 feet (594 meters). Wizard Island, a volcanic cinder code, is visible in the foreground.
    CraterLake_ZodiacalLight_9620.jpg
  • A natural nighttime pillar of light known as the Zodiacal Light shines above and is reflected in Crater Lake, Oregon. The Zodiacal Light results from the sun shining on dust particles from old comets. The dust particles - the largest of which are believed to be just 0.3 mm and miles from its nearest neighboring particle - orbit the sun in a range from Mars to beyond Jupiter. Visible year-round in the tropics, the Zodiacal Light is best viewed immediately around the spring and fall solstice farther from the equator. The planet Venus, the brightest object in the sky, is visible near the peak of the Zodiacal Light and is also reflected in Crater Lake. The Milky Way, visible on the right, intersects with the Zodiacal Light at the top-center of the image. Crater Lake, which is actually a caldera, formed when Mount Mazama erupted violently about 7,700 years ago, causing its summit to collapse. Subsequent eruptions sealed the caldera, trapping rain water and snowmelt, forming the lake, which has a maximum depth of 1,949 feet (594 meters). Wizard Island, a volcanic cinder code, is visible in the foreground.
    CraterLake_ZodiacalLight_9909.jpg
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