yes they can also form rainbows
The three landforms that result from volcanic activity are volcanoes, calderas, and lava plateaus. Volcanoes are cone-shaped mountains formed by the accumulation of lava and ash. Calderas are large depressions that form after a volcanic eruption empties the magma chamber beneath a volcano. Lava plateaus are large, flat landforms created by multiple layers of solidified lava flows.
They are all calderas, which are large volcanic craters that form after an eruption causes the collapse of the volcano's summit. These volcanoes have experienced significant eruptions in the past, shaping their current landscapes and creating unique geological features. Additionally, their eruptions have had far-reaching impacts on the surrounding environment and global climate.
That term is 'calderas'
If you are talking about underwater volcanoes, than i have a answer. So, when underwater volcanoes erupt it MIGHT be able to create a island like Hawaii. Hawaii was made because of an eruption underwater.
Volcanoes - No. Craters - No. Rings - Yes. Neptune is a gas giant. A gas giant does not have a solid surface or rocks. Therefore it is impossible for impact craters and volcanoes to form. Neptune has very faint blue-white rings that are very difficult to see.
Calderas are typically larger than most impact craters, which are formed by meteorite impacts. Calderas are massive volcanic depressions that form when the ground collapses after a volcanic eruption depletes the magma chamber. The size of both structures can vary greatly, but calderas tend to be larger in scale.
The three landforms that result from volcanic activity are volcanoes, calderas, and lava plateaus. Volcanoes are cone-shaped mountains formed by the accumulation of lava and ash. Calderas are large depressions that form after a volcanic eruption empties the magma chamber beneath a volcano. Lava plateaus are large, flat landforms created by multiple layers of solidified lava flows.
They are all calderas, which are large volcanic craters that form after an eruption causes the collapse of the volcano's summit. These volcanoes have experienced significant eruptions in the past, shaping their current landscapes and creating unique geological features. Additionally, their eruptions have had far-reaching impacts on the surrounding environment and global climate.
That term is 'calderas'
If you are talking about underwater volcanoes, than i have a answer. So, when underwater volcanoes erupt it MIGHT be able to create a island like Hawaii. Hawaii was made because of an eruption underwater.
Volcanoes - No. Craters - No. Rings - Yes. Neptune is a gas giant. A gas giant does not have a solid surface or rocks. Therefore it is impossible for impact craters and volcanoes to form. Neptune has very faint blue-white rings that are very difficult to see.
No. Neptune is a gas giant. Therefore it does not have a surface or solid rocks. Therefore there is nothing for anything to impact on and it is impossible for volcanoes to form.
There are a few ancient Calderas in Texas. Texas isn't near any 'hotspots' or tectonic plate boundaries, so it's not volcanically active. The Calderas are in the western part of the state and are about 40 million years old or so... One in particular is the Buckhorn Caldera near Ft. Davis, Texas.
Saturn does not have craters. Craters are formed when one solid object crashes into another, much larger, solid object and gouges out a hole, which is called a crater. Saturn is essentially a huge ball of gas, so it cannot have craters. Craters are also formed when volcanoes explode. Because Saturn is essentially a big ball of gas it is not known to have volcanoes.
plateaus or plateaux
Tephra (ash or rock)cratercentral ventstratamagma chamberhere is an image tht shows where it is located on a volcano:http://egsc.usgs.gov/isb/pubs/teachers-packets/volcanoes/poster/graphics/posterfig1.jpg
Yes, although technically, strato-volcanoes *are* cinder cones (composite cones), built up of layers of ash. But the term "cinder cones" (ash cones) is usually applied to smaller cones that form within the vicinity of large volcanic calderas, such as Crater Lake in Oregon. They may be associated with either strato-volcanoes or shield volcanoes.