The San Andreas fault is a transform tectonic plate boundary, which means that the two conflicting plates slide against each other, rather than shelf or collide and curve upwards or downwards, the most common ways volcanoes form. Because no pressure is forcing magma or land up, it is unlikely that volcanoes would form on the San Andreas fault line, however with these types of boundaries, earthquakes are more common.
Except for 'hot spots' like Hawaii and Yellowstone National Park, volcanoes usually form where one tectonic plate plunges under another (subduction). The plunging plate drags with it oceanic moisture and (lighter than basaltic) andesic sediments that when heated can 'melt' their way to the surface. The San Andreas fault is a location where tectonic plates are merely sliding past each other.
No volcanoes can be made because since it is a strike slip fault, the plates move past each other rather than curving or bending, which will make the fault open up, but the strike slip fault does not do this, the plates are only just moving past one another.
Volcanoes don't form along the San Andreas Fault because it is a strike-slip fault. This means that neither plate is being subjected under the other--they are just sliding past each other. Because of this, there is no magma, or a way for the magma to come up.
Volcanoes don't form along the San Andreas Fault because it is a strike-slip fault. This means that neither plate is being subjected under the other--they are just sliding past each other. Because of this, there is no magma, or a way for the magma to come up.
The San Andreas fault is a transform tectonic plate boundary, which means that the two conflicting plates slide against each other, kyle rather than shelf or collide and curve upwards or downwards, the most common ways volcanoes form. Because no pressure is forcing magma or land up, it is unlikely that volcanoes would form on the San Andreas fault line, however with these types of boundaries, earthquakes are more common.
Volcanoes usually form where one tectonic plate plunges under another (subduction). the San Andreas fault is a Strike-Slip fault. A location where tectonic plates are only sliding past each other.
From https://answers.yahoo.com/question/index?qid=20080229043710AA9leVo
Volcanoes can't form on the San Andreas fault because it's a strike slip fault. A strike slip fault is when the plates slip past each other making there to be no way for the magma to come up so there is no volcanoes that can form there.
Volcanoes don't form along the san Andreas fault because it is a slip fault strike the plates are not going underneath each other but they are scraping against each other.______________________________________________
Volcanos generally form on top of Destructive Plate boundaries, where the less dense Oceanic Crust sub ducts underneath the more dense continental crust
volcanoes can not form on the san Andreas fault because it is a strike slip fault and the earths surface never pull apart they just rub together so lava can not leave the earths core
The San Andreas fault is a transform tectonic plate boundary, which means that the two conflicting plates slide against each other, kyle rather than shelf or collide and curve upwards or downwards, the most common ways volcanoes form. Because no pressure is forcing magma or land up, it is unlikely that volcanoes would form on the San Andreas fault line, however with these types of boundaries, earthquakes are more common.
Volcanos generally form on Destructive Plate boundaries, where the less dense Oceanic Crust subducts underneath the more dense continental crust
ReplyDeleteThe San Andreas fault is a transform tectonic plate boundary, which means that the two conflicting plates slide against each other, rather than shelf or collide and curve upwards or downwards, the most common ways volcanoes form. Because no pressure is forcing magma or land up, it is unlikely that volcanoes would form on the San Andreas fault line, however with these types of boundaries, earthquakes are more common.
ReplyDeletehttps://answers.yahoo.com/question/index?qid=20081208175900AAcGFCa
Volcanos do form there because dense continental crust.
ReplyDeleteWhy volcanoes don't form along the San Andreas fault is because its a strike-slip fault not a normal or reverse fault.
ReplyDeleteVolcanoes don't form along the San Andreas fault b/c the fault line isn't experiencing ripping or subduction along its boundaries.
ReplyDeletehttp://answerparty.com/question/answer/can-you-explain-why-volcanoes-do-not-form-along-the-san-andreas-fault
Volcanoes do not form on the san Andreas fault because earthquakes only form there.SCIENCE IS REAL!!!!!!!!!!!!!!!!!!!!!!!!
ReplyDeletevolcanos generally form on Destructive Plate boundaries where the less dense Oceanic Crust sub-ducts underneath the more dense continental crust.
ReplyDeleteim so incorrect thanks google
Deleteswag
DeleteExcept for 'hot spots' like Hawaii and Yellowstone National Park, volcanoes usually form where one tectonic plate plunges under another (subduction). The plunging plate drags with it oceanic moisture and (lighter than basaltic) andesic sediments that when heated can 'melt' their way to the surface. The San Andreas fault is a location where tectonic plates are merely sliding past each other.
ReplyDeletehttps://answers.yahoo.com/question/index?qid=20080229043710AA9leVo
No volcanoes can be made because since it is a strike slip fault, the plates move past each other rather than curving or bending, which will make the fault open up, but the strike slip fault does not do this, the plates are only just moving past one another.
ReplyDeleteVolcanos do form there because dense continetal crust.
ReplyDeleteVolcanoes don't form along the San Andreas Fault because it is a strike-slip fault. This means that neither plate is being subjected under the other--they are just sliding past each other. Because of this, there is no magma, or a way for the magma to come up.
ReplyDeletehttp://www.answers.com/Q/Why_do_volcanoes_don't_form_along_the_San_Andreas_Fault
Volcanos do form there because dense continetal crust.
ReplyDeleteVolcanoes don't form along the San Andreas Fault because it is a strike-slip fault. This means that neither plate is being subjected under the other--they are just sliding past each other. Because of this, there is no magma, or a way for the magma to come up.
ReplyDeletehttp://www.answers.com/Q/Why_do_volcanoes_don't_form_along_the_San_Andreas_Fault
The San Andreas fault is a transform tectonic plate boundary, which means that the two conflicting plates slide against each other, kyle rather than shelf or collide and curve upwards or downwards, the most common ways volcanoes form. Because no pressure is forcing magma or land up, it is unlikely that volcanoes would form on the San Andreas fault line, however with these types of boundaries, earthquakes are more common.
ReplyDeletehttps://answers.yahoo.com/question/index?qid=20081208175900AAcGFCa
Volcanoes usually form where one tectonic plate plunges under another (subduction). the San Andreas fault is a Strike-Slip fault. A location where tectonic plates are only sliding past each other.
ReplyDeleteFrom https://answers.yahoo.com/question/index?qid=20080229043710AA9leVo
The San Andreas fault is a transform tectonic plate boundry.
ReplyDeleteThe San Andreas Fault half is in Hawii and Japan, And the other half is in Iceland and New York.
ReplyDeleteVolcanoes can't form on the San Andreas fault because it's a strike slip fault. A strike slip fault is when the plates slip past each other making there to be no way for the magma to come up so there is no volcanoes that can form there.
ReplyDeleteThe plates are sliding next to eachother not under or over.
ReplyDeleteIt's not the right type of fault to form a volcano.
ReplyDeleteVolcanoes do not form on the San Andreas fault line because of the tectonic plates in the area.
ReplyDeleteCause they plates don't go under each other and thats what needs to happen to have a volcano.
ReplyDeleteVolcanoes don't form on the San Andreas fault because it is a strike-slip fault.
ReplyDeleteVolcanoes don't form along the san Andreas fault because it is a slip fault strike the plates are not going underneath each other but they are scraping against each other.______________________________________________
ReplyDeleteVolcanos generally form on top of Destructive Plate boundaries, where the less dense Oceanic Crust sub ducts underneath the more dense continental crust
ReplyDeleteVolcanoes can't form on the San Andreas fault because it's a strike slip fault.
ReplyDeleteVolcano do not form on the San Andreas fault because it is a strike-slip fault.
ReplyDeleteBecause the plates move too suddenly.
ReplyDeleteThe plates are to close together and the lave can not get thought.
ReplyDeletevolcanoes can not form on the san Andreas fault because it is a strike slip fault and the earths surface never pull apart they just rub together so lava can not leave the earths core
ReplyDeleteVolcanoes do not form along the San Andreas fault because the fault is a strike-slip fault!
ReplyDeleteBecause the San Andreas fault is a slip strike fault and volcanos can't form on those.
ReplyDeleteVolcanoes don't form on the San Andreas fault because it is a strike-slip fault so it doesn't push land up.
ReplyDeleteVolcanoes can't form on the San Andreas fault because it's a strike slip fault, and not a subduction zone.
ReplyDeleteThe crash mcsplody™
ReplyDeleteVolcanoes can form because strike slip fault is not right for a volcano.
ReplyDeleteThe San Andreas fault is a transform tectonic plate boundary, which means that the two conflicting plates slide against each other, kyle rather than shelf or collide and curve upwards or downwards, the most common ways volcanoes form. Because no pressure is forcing magma or land up, it is unlikely that volcanoes would form on the San Andreas fault line, however with these types of boundaries, earthquakes are more common.
ReplyDeletehttps://answers.yahoo.com/question/index?qid=20081208175900AAcGFCa
San Andreas's fault is a strike slip fault, and not a subduction zone, which means that volcanos can't form.
ReplyDeleteThe tectonic plates slide past each other
ReplyDeletethe plates slide across from eachother
ReplyDeleteIt does not because it is a strike slip fault.
ReplyDeletevolcanoes do not form along the San Andreas fault because the faults slide against each other,so there is no place for the volcanoes to form.
ReplyDeleteThe San Andreas fault strike slip fault which makes it so volcanos can't form.
ReplyDeleteIt is a slip strike fault.
ReplyDeleteThe San Andreas's fault is a strike-slip fault so that means it doesn't push land up.
ReplyDeleteAnd to have a volcano the land as to be pushing up.
ReplyDeleteBeacuse it's a strike slip fault.
ReplyDeleteIts A Strike-Slip Fault, Meaning There is No Room For the Land to be pushed up.
ReplyDeleteThe plates slide past each other and no room for a volcano
ReplyDeleteSince San Andreas is a strike slip fault, not a subduction zone, no magma can reach the top of the Earth, so that means NO VOLCANOS.
ReplyDeleteVolcanoes cannot form from the San Andreas fault because it's a stripe slip fault and volcanoes cannot form from those.
ReplyDeleteThere can't be a volcano because the two plate slide together smoothly.
ReplyDeleteThe San Andreas fault is the plates are rubbing against each other.
ReplyDeleteThere is not a volcano on the San Andreas fault because the faults slide atop one other so a volcano could form.
ReplyDeleteVolcanoes slide agents each other so magma can no slip thought the plates and form a volcano.
ReplyDelete