You compress it
Well, it ALL depends on how hard you push down on the spring.
defination of suddenly applied load
it the ratio of load applied on the displacement of spring.. stiffness=load/change in length.
the beam gets bend if the load is more then the resisting force of the beam and if the resisting force is more then the load it doesn't bends.
The applied load refers to the load which acts on a structure at a given location or series of locations. The reaction is that which balances the applied load at the specific boundary (reaction) loactions. The sum of the applied load is equal to the reactions in the axis of application. For equilibrium, the sum of all forces and monemts are zero, so reactions may contain moment terrms under applied load, even if the applied laod has no applied moment.
The maximum stress induced in a body due to suddenly applied load is twice the stress induced when the same load is applied gradually
The load of a clothespin is the force applied by the spring to hold the clothes together. The effort is the force applied by squeezing the two arms of the clothespin together to open it.
A spring balance is a weighing device that utilizes the relation between the applied load and the deformation of a spring. It is widely used commercially.
The beam will deflect in the direction of the load This is Hooke's law, which states that load is proportional to deflection
When a pulling force is applied to a spring, it stretches due to the tension created in the spring's material. The spring elongates in the direction of the applied force until the force is removed. The amount of stretching is proportional to the force applied, as described by Hooke's Law.
when the load is applied in the beam then deflection takes place. the nature of the deflection depends on the support provided on it
To determine the bending stress of a helical spring, first, identify the spring's parameters, such as diameter, wire thickness, and the load applied. The bending stress can be calculated using the formula: ( \sigma_b = \frac{M \cdot c}{I} ), where ( M ) is the moment due to the load, ( c ) is the distance from the neutral axis to the outermost fiber, and ( I ) is the moment of inertia of the spring's cross-section. Additionally, consider the spring's geometry and the direction of the applied load to ensure accurate stress analysis.
defination of suddenly applied load
Hooke's law of elasticity is an approximation that states that the extension of a spring is in direct proportion with the load applied to it.
Stiffness in a helical spring test refers to the spring's resistance to deformation under load, specifically measured as the ratio of the applied force to the resulting displacement. It is typically expressed in units of force per unit length (e.g., N/mm). The stiffness can be influenced by factors such as the spring's material, diameter, number of coils, and wire diameter. A stiffer spring will deform less under the same applied load compared to a less stiff spring.
defination of suddenly applied load
defination of suddenly applied load
it the ratio of load applied on the displacement of spring.. stiffness=load/change in length.