The cells produced by mitosis undergo a period of elongation in the direction of the axis of the root. It is at this time that they are sensitive to gravity and respond with gravitropism.
This is because the root's primary function is to absorb water and nutrients, which can be achieved more efficiently with a shorter elongation zone. In contrast, the stem requires a longer elongation zone to support the plant's growth and facilitate its ability to reach sunlight for photosynthesis.
Root hairs are mainly responsible for absorbing water and nutrients from the soil.
One cycle of elongation adds one amino acid to the growing polypeptide chain. Therefore, to produce a protein with 100 amino acids, 99 cycles of elongation are required, as the initial methionine is not incorporated through elongation but rather at the initiation step of protein synthesis.
MD Elongation (Machine Direction Elongation) refers to the stretching or deformation of a material along the direction of its production or processing, typically along the length of a film or sheet. In contrast, TD Elongation (Transverse Direction Elongation) measures the stretching perpendicular to the machine direction, across the width of the material. These properties are crucial in evaluating the mechanical performance and flexibility of materials, especially in applications like packaging and textiles. Understanding both elongations helps in optimizing material performance for specific uses.
The elongation of a tension specimen can be measured by marking a gauge length on the specimen before testing it and then comparing the final length of the specimen after it has been stretched to the original gauge length. The elongation can be calculated using the formula: Elongation = ((final length - original length) / original length) x 100%.
The cells produced by mitosis undergo a period of elongation in the direction of the axis of the root. It is at this time that they are sensitive to gravity and respond with gravitropism.
This is because the root's primary function is to absorb water and nutrients, which can be achieved more efficiently with a shorter elongation zone. In contrast, the stem requires a longer elongation zone to support the plant's growth and facilitate its ability to reach sunlight for photosynthesis.
To find elongation on a graph, you need to identify the points where the graph reaches its maximum and minimum values within a specific interval. Elongation is typically represented as the difference between these two extreme points. You can calculate this by measuring the vertical distance between the highest peak and the lowest trough on the graph. Additionally, if the graph represents a periodic function, the elongation can be assessed by examining the amplitude of the oscillations.
Internodal elongation is stimulated by
strain is percent elongation/100; for example a strain of 0.02 is 2% elongation. Often we refer to elongation at failure; for example if a material fails at 10% elongation its strain is 0.10
What is the importance of elongation of a material?
no
Root hairs are mainly responsible for absorbing water and nutrients from the soil.
* yarn elongation is stretching of yarn before breakage of yarn and it is related with workability of machine and process * yarn elongation is nothing but the the fibre strength
Tensile strength and elongation are inversely related in materials. This means that as the tensile strength of a material increases, its elongation decreases, and vice versa. Materials with high tensile strength are typically less ductile and have lower elongation values, while materials with lower tensile strength are more ductile and have higher elongation values.
The answer depends on what causes the elongation: a stretching force (tension) or thermal expansion.
Elongation.