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Elastic resistance refers to the resistance a material offers when force is applied but returns to its original shape once the force is removed. Compliance is the ability of a material to deform or change shape in response to an applied force. These properties are important in various fields including engineering, Biology, and materials science.
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What is parallel elastic component?
The parallel elastic component refers to passive elastic structures within muscles, tendons, and ligaments that run parallel to the muscle fibers. These structures contribute to the overall elasticity and compliance of the muscle-tendon unit, allowing for energy storage and transfer during movement.
What is the definition of the word compliance from a physics point of view?
Compliance is generally regarded as the inverse of the elastic spring constant which is usually denoted as "k" in most standardized text. The word compliance is a good fit since the larger the k value or "stiffness" of a particular spring is, the harder it is to displace it when a constant force is applied. In other words the spring is not so compliant when the k value is large. As a result of this reasoning compliance is the inverse of the stiffness of an elastic system (Compliance= 1/Stiffness=k^-1).
What is the relationship between shear modulus and elastic modulus?
The shear modulus and elastic modulus are related properties that describe a material's response to deformation. The shear modulus specifically measures a material's resistance to shearing forces, while the elastic modulus, also known as Young's modulus, measures a material's resistance to stretching or compression. In general, the shear modulus is related to the elastic modulus through the material's Poisson's ratio, which describes how a material deforms in response to stress.
What do you feel if you hookthe 2 ends of an elastic bandover your index fingers and slowly move your hands apart?
As you move your hands apart with the elastic band stretched between your fingers, you will feel the tension in the band increasing as it stretches further. The resistance will grow stronger the farther apart your fingers are until the band reaches its limit and snaps back together when released.
What is elastic friction?
Elastic friction refers to the resistance encountered when two surfaces in contact are compressed together, causing their molecules to deform slightly. This deformation results in a force acting to resist the relative motion of the surfaces. It is the frictional force present when there is an elastic deformation of the surfaces involved.
Do they sell elastic resistance bands at walmart?
yes
Explain the relationship between weight training and progressive resistance?
Weight training versus resistance trainingResistance training involves the application of elastic or hydraulic resistance to muscle contraction rather than gravity. Weight training provides the majority of the resistance at the beginning, initiation joint angle of the movement, when the muscle must overcome the inertia of the weight's mass. After this point the overall resistance alters depending on the angle of the joint. In comparison, hydraulic resistance provides a fixed amount of resistance throughout the range of motion, depending on the speed of the movement. Elastic resistance provides the greatest resistance at the end of the motion, when the elastic element is stretched to the greatest extent.
What is parallel elastic component?
The parallel elastic component refers to passive elastic structures within muscles, tendons, and ligaments that run parallel to the muscle fibers. These structures contribute to the overall elasticity and compliance of the muscle-tendon unit, allowing for energy storage and transfer during movement.
What is the definition of the word compliance from a physics point of view?
Compliance is generally regarded as the inverse of the elastic spring constant which is usually denoted as "k" in most standardized text. The word compliance is a good fit since the larger the k value or "stiffness" of a particular spring is, the harder it is to displace it when a constant force is applied. In other words the spring is not so compliant when the k value is large. As a result of this reasoning compliance is the inverse of the stiffness of an elastic system (Compliance= 1/Stiffness=k^-1).
Does loss of elastic recoil move the Equal pressure point from large airways to small airways?
Yes, when the elastic recoil decreases, the compliance increases; the long is more weak; it will collapse sooner, so EPP moved into the small airways.
What is the relationship between shear modulus and elastic modulus?
The shear modulus and elastic modulus are related properties that describe a material's response to deformation. The shear modulus specifically measures a material's resistance to shearing forces, while the elastic modulus, also known as Young's modulus, measures a material's resistance to stretching or compression. In general, the shear modulus is related to the elastic modulus through the material's Poisson's ratio, which describes how a material deforms in response to stress.
What do you feel if you hookthe 2 ends of an elastic bandover your index fingers and slowly move your hands apart?
As you move your hands apart with the elastic band stretched between your fingers, you will feel the tension in the band increasing as it stretches further. The resistance will grow stronger the farther apart your fingers are until the band reaches its limit and snaps back together when released.
What is elastic friction?
Elastic friction refers to the resistance encountered when two surfaces in contact are compressed together, causing their molecules to deform slightly. This deformation results in a force acting to resist the relative motion of the surfaces. It is the frictional force present when there is an elastic deformation of the surfaces involved.
What are the key factors to consider when evaluating a material's elastic compliance for use in a product design?
When evaluating a material's elastic compliance for product design, key factors to consider include the material's Young's modulus, shear modulus, Poisson's ratio, and the material's ability to return to its original shape after deformation. These factors help determine how well the material will perform under stress and strain in the intended application.
What is the difference between elastic modulus and tensile modulus, and how do they compare in terms of material properties?
Elastic modulus and tensile modulus both measure a material's stiffness, but they do so in different ways. Elastic modulus measures a material's resistance to deformation under a specific load, while tensile modulus measures its resistance to stretching or pulling. In terms of material properties, elastic modulus is more commonly used and provides a general measure of a material's stiffness, while tensile modulus is more specific to how a material responds to tension.
What are the benefits of using a wide elastic band for fitness and exercise routines?
Using a wide elastic band for fitness and exercise routines can provide benefits such as increased resistance for muscle strengthening, improved flexibility, and enhanced stability during workouts.
What is the algebra equation when determining the relationship between the bounce height and drop height?
The answer depends on the degree of sophistication. For an elastic object, ignoring any air resistance, the bounce height, h = drop height, d. If the object is elastic, with coefficient of restitution = r, then h = r2*d. The equation becomes more complex as other effects such as air resistance are introduced into the calculation.
