Set of measurements, masses, Hooke's law, thrust, digital multi-timer with scroll, 12 functions, sensor
Function
Intended for experimental study, physics laboratory and carrying out physics experiments on: Dynamics. The force applied to the spring and the elongation it causes. Relationship between mass and weight, graph, function and value of local g. The module of the force weight, the value of the weight of a body, is proportional to the value of its mass. The unit of measurement of the force and the unit of measurement of mass in SI. Table and graph. Determining the gravitational acceleration at the site of the experiment. The angular coefficient and its physical meaning. Considering the trend line of the points on the graph and the function presented by the spreadsheet. The helical spring and Hooke's law. Temporary deformation, elastic deformation. Permanent deformation, plastic deformation. Constructing the data table. Constructing the graph of applied force versus deformation. The mathematical ratio between the applied force and the elongation. The angular coefficient of the graph and its physical interpretation. Association of helical springs in series. Determination of the elasticity constant of the association of springs in series. Association of helical springs in parallel. Determination of the spring constant of parallel helical springs. Dynamic determination of the spring constant of a helical spring, mass oscillator and spring. Observing the amplitude and frequency of the mass and spring oscillator. Newton's second law combined with Hooke's law. The equation for the period of oscillation of the system. The period of oscillation of the system and the determination of the spring constant. Conservation of Energy. Work and energy in a mass and helical spring system, conservation of mechanical energy. Energy exchanges that occur in an oscillating mass-spring system. The SI unit of work. Work done by the elastic force. Elastic potential energy. Work done by an external force that displaces a body and energy in transit. Energy can neither be generated nor destroyed. Kinetic energy. Conservation of mechanical energy at any point along the trajectory. Hydrostatics. Buoyancy, a vertical force, oriented from bottom to top. What is meant by a difference buoyancy meter. Buoyancy, a discovery by Archimedes of Syracuse. Archimedes' principle. Verifying the action of the buoyant force. Determining the value of the buoyant force. The buoyant force acting on a body submerged in a fluid is equal to the weight of the volume of fluid displaced by it. Determining the density of a solid through buoyancy. What is meant by absolute density, or specific mass. What is meant by specific weight. Determining the value of the density of the solid test specimen. Wave. The SHM in a system of mass and oscillating helical spring. Mass-spring system, oscillatory motion, simple harmonic motion, sensor. The acceleration of the mass attached to the spring. The position, velocity and acceleration of the oscillating mass. The amplitude of oscillation, the angular velocity and the phase, etc.
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Key Experiments
- » Relationship between mass and weight, graph, function and value of local g. - 1032.039
- » The force applied to the spring and the elongation it causes. - 1032.052F1
- » The helical spring and Hooke's law. - 1032.052B_3
- » Association of helical springs in series. - 1032.053B_3
- » Association of coil springs in parallel. - 1032.053C_3
- » Dynamic determination of the elasticity constant of a helical spring, mass oscillator and spring. - 1032.012B_3
- » Work and energy in a system of mass and helical spring, conservation of mechanical energy. - 1032.056B_3
- » Buoyancy, a vertical force directed from below upwards. - 1042.028B
- » Archimedes' principle. - 1042.032B
- » Determining the density of a solid by buoyancy. - 1042.033B
- » The SHM in an oscillating mass and coil spring system. - 1072.008B_3
- » Mass-spring system, oscillatory motion, simple harmonic motion, sensor. - 1032.012_3