Chapter 9, Solids and Fluids
... to return to its original shape and size. If a big enough force is applied, the object will deform or break. This is called elastic behavior. Kind of makes you want to think about the object s a spring. ...
... to return to its original shape and size. If a big enough force is applied, the object will deform or break. This is called elastic behavior. Kind of makes you want to think about the object s a spring. ...
Elastic Potential Energy (Warning: Algebra required)
... Elastic Potential Energy (Warning: Algebra required) 1. Consider a mass m attached to a horizontal spring of spring constant k resting on a frictionless table. All measurements are from the equilibrium rest point. An external applied force F is gradually applied to compress the spring until the forc ...
... Elastic Potential Energy (Warning: Algebra required) 1. Consider a mass m attached to a horizontal spring of spring constant k resting on a frictionless table. All measurements are from the equilibrium rest point. An external applied force F is gradually applied to compress the spring until the forc ...
t - Courses
... The period of simple harmonic motion depends only on the mass and the spring constant and does not depend on the acceleration due to gravity. By going to the Moon, the value of g has been reduced, but that does not affect the period of the oscillating mass–spring system. ...
... The period of simple harmonic motion depends only on the mass and the spring constant and does not depend on the acceleration due to gravity. By going to the Moon, the value of g has been reduced, but that does not affect the period of the oscillating mass–spring system. ...
Year 10 Physical Science Content Descriptions
... • recognising that the Law of Conservation of Energy explains that total energy is maintained in energy transfer and transformation • recognising that in energy transfer and transformation, a variety of processes can occur, so that the usable energy is reduced and the system is not 100% efficient • ...
... • recognising that the Law of Conservation of Energy explains that total energy is maintained in energy transfer and transformation • recognising that in energy transfer and transformation, a variety of processes can occur, so that the usable energy is reduced and the system is not 100% efficient • ...
Dyadic Tensor Notation
... Here P and E are parallel. Their cartesian components are related to each other by the same constant of proportionality 0 for each component. Here we have denoted vectors by underlinings as one would do if writing this out by hand. Usually books denote vectors by bold type in the rest of this she ...
... Here P and E are parallel. Their cartesian components are related to each other by the same constant of proportionality 0 for each component. Here we have denoted vectors by underlinings as one would do if writing this out by hand. Usually books denote vectors by bold type in the rest of this she ...