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RossStatic weight refers to the weight of an object when it is stationary, whereas dynamic weight refers to the weight of an object when it is in motion. Dynamic weight takes into account factors such as momentum, acceleration, and gravity that affect an object's weight while it is moving.
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What is the difference between static weight and dynamic weight?
Static weight is the weight of an object when it is not in motion, while dynamic weight takes into account the additional forces acting on an object when it is in motion, such as inertia and acceleration. Dynamic weight can be greater than static weight due to these additional forces.
In weight test what is the difference between a static test load and a dynamic test load?
A static test load is applied gradually and held constant to measure the structure's deformation and ultimate load-carrying capacity. On the other hand, a dynamic test load is applied rapidly and repeatedly to simulate real-life conditions and assess the structure's response to dynamic loads such as wind or seismic activity.
What is the difference between dynamic and static loads?
A static load is applied to remain static without any build up of energy. Example a sandbag put slowly on a floor. When the sandbag put on a cart and wheeled on the floor, it becomes a dynamic load. When a sandbag is brought to a height and dropped down to the floor, it build on kinetic energy and is no longer a static load but a type of dynamic load.
What are the conditions that oppose or resist motion?
Static friction is the force that opposes the initiation of motion between two surfaces in contact. Factors such as roughness of surfaces, weight of objects, and the nature of the materials affect the magnitude of static friction.
What is static load?
Static load refers to a constant force or weight exerted on a structure or object without any change over time. It does not vary in magnitude or direction and remains constant, unlike dynamic loads which change or move. Understanding static loads is important in designing structures and materials to ensure they can bear the weight without failing.
