A fault strikes 120° and dips 55°. Striae on the fault plane have a rake of 135°. A horizontal bed is separated by 10m vertically across the fault, with the footwall side lower than the hangingwall side. Question 1. Using the diagram below, complete a three-dimensional, perspective-view block diagram for this problem. Please be sure to show the strike & dip of the fault, the position of the slip vector and its trend, plunge, rake, and any other geometric components needed to answer the following questions. horizontal plane fault plane Plunge Up Trend cos (p) m=cos(p) cos(t) Unit vector with plunge p and trend t I= cos(p) sin(t) (n = -sin(p)

Question 2. Calculate the trend and plunge of the slip vector, making sure to show your
work.
 What is the length of the slip vector? Show your work.
What type of fault is this? Name it as specifically as possible

 

Transcribed Image Text:

A fault strikes 120° and dips 55°. Striae on the fault plane have a rake of 135°. A horizontal bed is separated by 10m vertically across the fault, with the footwall side lower than the hangingwall side. Question 1. Using the diagram below, complete a three-dimensional, perspective-view block diagram for this problem. Please be sure to show the strike & dip of the fault, the position of the slip vector and its trend, plunge, rake, and any other geometric components needed to answer the following questions. horizontal plane fault plane

Transcribed Image Text:

Plunge Up Trend cos (p) m=cos(p) cos(t) Unit vector with plunge p and trend t I= cos(p) sin(t) (n = -sin(p)