noun the quality of being easily stretched or bent
adjective having the ability to be stretched or bent easily
Tensility is important in structural engineering to determine the strength and flexibility of materials used in construction.
In physics, tensility is a key factor in understanding the behavior of materials under stress and strain.
Tensility is relevant in biology when studying the elasticity and flexibility of biological tissues and fibers.
Tensility is a measure of a material's ability to stretch without breaking, commonly used in testing the elasticity of materials.
Tensility is crucial in the textile industry for determining the stretchability and durability of fabrics and fibers.
Writers may use the concept of tensility when describing the emotional depth and flexibility of their characters or the tension in their storylines.
Psychologists may refer to tensility when discussing the ability of individuals to adapt to stress or to the resilience of the human psyche.
Engineers may consider tensility when designing materials that need to withstand stretching or bending without breaking.
Athletes may focus on tensility when training to improve their flexibility and prevent injuries related to muscle tightness.