thrust or reverse fault,
I think you are referring to the cristae. These are the folded parts of the inner membrane. The purpose is to increase surface area of the inner membrane against the matrix. The membrane is the site of the energy transfer in the mitochondria, so having more surface area is a plus.
This description matches the structure of mitochondria. The outer membrane of mitochondria surrounds the organelle, while the inner membrane is folded into numerous layers called cristae, which help increase the surface area for energy production through oxidative phosphorylation.
A folded membrane increases the surface area available for absorption. More surface area allows for more sites for passive transport.
The relative age of a fault is determined by its position in relation to surrounding geological features, such as rock layers and other faults. If a fault cuts through a rock layer, it is considered younger than that layer, while if it is displaced by another fault, it is older. This relative dating helps geologists understand the sequence of geological events and the history of the Earth's crust in that area. Additionally, the presence of certain fossils or mineral deposits can also help establish the relative age of the fault.
A slip-strike fault is one where the two areas move sideways with regard to one another. A normal fault is where one area drops down, and a reverse fault is one where an area is thrust upwards.
If a fault occurs in an area where rock layers have been folded, the type of fault it is likely to be is thrust faulting. This type of fault will have the ground on one side of the fault, move up and over adjacent ground.
What is the relative age of a fault that cuts across three horizontal sedimentary rock layers?A. The fault is older than the middle layer. B.The fault is younger than all the layers it cuts across.C. The fault is the same age as the top layer. D. The fault is older than all the layers it cuts across == ==
To increase the surface area.
Anticline formation occurs when compression causes the crust to rise in one area, forming an upward fold, while syncline formation happens when compression causes the crust to sink in another area, forming a downward fold.
folded moutain A+
I think you are referring to the cristae. These are the folded parts of the inner membrane. The purpose is to increase surface area of the inner membrane against the matrix. The membrane is the site of the energy transfer in the mitochondria, so having more surface area is a plus.
Probably reverse fault because folding is the result of compressional stres and reverse faults are caused by compression
Folded mountains are formed from the compression and folding of rock layers, typically along convergent tectonic plate boundaries. Dome mountains, on the other hand, are formed by the uplift of a large circular area of rock, often as a result of magma pushing up from below the surface. Folded mountains have a linear shape due to the folding of rock layers, while dome mountains have a more rounded or dome-like shape.
Folding is usually the result of compressional stress. This may also cause thrust / reverse faults.
A fault can be useful in determining the relative ages of different rock layers by showing which layers have been displaced or shifted due to tectonic forces. This can help geologists establish the sequence of events in an area's geological history.
A fold or anticline formation occurs when compression causes the Earth to rise higher than the surrounding area. This is a type of deformation in the Earth's crust where rock layers are pushed together, causing an upward arching of the layers.
This description matches the structure of mitochondria. The outer membrane of mitochondria surrounds the organelle, while the inner membrane is folded into numerous layers called cristae, which help increase the surface area for energy production through oxidative phosphorylation.