1. The fault where fault strike is parallel to the dip of the layers broken and disrupted by the fault?
a) Dip faults
b) Strike faults
c) Oblique faults
d) Hade faults
Explanation: Dip faults are the faults which develop parallel to the dip of the strata. In other words, the fault strike is parallel to the dip of the layers broken and disrupted by the fault.
2. The fault which is also called a diagonal fault is ___________
a) Wrench fault
b) Transform fault
c) Oblique fault
d) Dip fault
Explanation: Oblique faults are sometimes called diagonal faults. In such a fault, the fault strike makes an oblique angle with the strike of the rocks in which it has caused the displacement.
3. The type of fault which is observed in both continental and oceanic environment is ___________
a) Strike-slip fault
b) Dip fault
c) Oblique fault
d) Wrench fault
Explanation: Strike-slip faults are the most important and widely developed faults in the crust of the earth, which have been observed both on the continental and oceanic environments.
4. Which is the type of strike-slip fault in which the fault plane has developed transverse to the regional structure?
a) Transform fault
b) Wrench fault
c) Translational fault
d) Tear fault
Explanation: Wrench fault is a strike slip fault in origin in which the fault plane has developed transverse to the regional structure and even the net slip has taken place in the same manner.
5. Transverse fault is the other name for __________ fault.
a) Transform fault
b) Tear fault
c) Wrench fault
d) Normal fault
Explanation: The dip of the wrench fault is very steep nearly vertical. These are also sometimes referred to as transverse faults.
6. Where do the transform faults occur extensively?
a) Continental blocks
b) Oceanic ridges
c) Island blocks
d) Volcanic ridges
Explanation: Transform faults are strike-slip faults occurring in oceanic ridges on an extensive scale.
7. Identify the group of small sized faults from the following.
a) Parallel faults
b) Enechelon faults
c) Peripheral faults
d) Radial faults
Explanation: Enechelon faults may be defined as a group of small sized faults that overlap each other in the region of their occurrence. A second fault appears on the surface at a distance before the first fault ends and so on
8. Group of faults which appear emerging outward from a common central region are called ___________
a) Enechelon faults
b) Parallel faults
c) Peripheral faults
d) Radial faults
Explanation: A group faults that appear emerging outward from a common central region are classified as radial faults. The area is divided into blocks with inwardly tapering ends.
9. Parallel can sometimes lead to step faults.
a) True
b) False
Explanation: In some cases, the intervening blocks are down thrown in the same general direction so that viewed from one side, the group gives a step-like appearance in the structure. These are then called step faults.
10. The type of fault not belonging to the classification based on the mode of occurrence is ___________
a) Parallel fault
b) Peripheral fault
c) Enechelon fault
d) Wrench fault
Explanation: Wrench fault is classification with slip as basis whereas, parallel fault, peripheral fault, enechelon fault are based on the mode of occurrence.