Cidepe

Function

Intended for experimental study, physics laboratory and carrying out physics experiments on: Physics. Kinematics. Reference frame, position, movement and trajectory. What is meant by mobile. Trajectory and displacement. The difference between displacement and distance traveled. The Cartesian reference system on the plane, orthogonal Cartesian plane. The quadrants. The coordinates of any point on the plane containing the orthogonal Cartesian system. Differences between scalar quantity and vector quantity. Uniform rectilinear movement, MRU. Performing data acquisition with the software. The S versus t table and graph. Determining the average speed. Determining the MRU time equation. Checking the MRU characteristics. Uniformly varied rectilinear movement, MRUV. Constructing the S versus t table and graph. The trend line of the points on the graph. The function that informs how the quantity S behaves in relation to t, in MRUV. The S versus t graph and the slope of the graph's tangent. Calculating, tabulating and constructing the v versus t graph of the MRUV with positive acceleration. The Torricelli equation, a time-independent equation, for the MRUV. Dynamics. The fundamental law of dynamics, Newton's second law. The movement of the mobile under the action of forces with different intensities. Obtaining the S versus t graph of the movement of the mobile under the action of different forces. The relationship between force and acceleration. Conservation of Energy. Inelastic collision, coefficient of restitution, momentum and kinetic energy. Analysis of the data obtained before and after the inelastic collision. What is understood by system. Mechanical collisions, momentum and kinetic energy. The coefficient of restitution between two colliding bodies. The momentum before and after the inelastic collision. The kinetic energy before and after the inelastic collision. Elastic collision, coefficient of restitution, momentum and kinetic energy. Analysis of the data, before and after the elastic collision. Obtaining the graph of the time function of car 1 before the collision. Obtaining the graph of the time function of car 1 after the collision. Obtaining the graph of the time function of car 2 after the collision. The momentum before and after a perfectly elastic collision. The kinetic energy before and after a perfectly elastic collision. Wave. Determination of the spring constant of a mass and spring system, SHM. Measuring periods and calculating the average value. Determining the spring constant by the dynamic process, etc.

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Details

Details with the main experiments