Understanding Fold Formation and Viscosity

The temperature of the environment

The age of the rock

The viscosity ratio and layer thickness

The color of the layer

Calculating the wavelength of folds

Measuring the temperature of layers

Determining the color of minerals

Calculating the age of rocks

The layers become transparent

The folds disappear

The folds become almost maximum in wavelength

The layers melt

They form a single large fold

They develop their own wavelengths independently

They do not form folds

They become flat

A way to color rocks

Slip between layers during folding

A method of measuring viscosity

A type of rock erosion

Presence of slicken sides and lineations

Color changes in the rock

Absence of folds

Increased temperature

They are always concentric

They have varying thickness in different directions

They do not form in nature

They have thicker hinges than limbs

Concentric folds are formed by buckling, similar folds by heterogeneous flow

Concentric folds are more colorful

Concentric folds are always larger

Similar folds are only found in artificial materials

Layers become transparent

Layers melt

Folds form by heterogeneous simple shear

No folds form

They are invisible

They are concentric

They have no wavelength

They are always flat