Cidepe

Function

Intended for experimental study, physics laboratory work, and conducting physics experiments on: Physics. Kinematics. Reference frame, position, motion, and trajectory. What is meant by a moving object. Trajectory and displacement. The difference between displacement and distance traveled. The Cartesian reference system in the plane, orthogonal Cartesian plane. The quadrants. The coordinates of any point on the plane containing the orthogonal Cartesian system. Differences between scalar and vector quantities. Uniform rectilinear motion (MRU) on an air track. The table and graph of S versus t. Determining average velocity. Determining the time equation of MRU. Verifying the characteristics of MRU. Uniformly accelerated rectilinear motion (MRUV) on an air track. Constructing the table and graph of S versus t. The trend line of the points on the graph, presented by the spreadsheet. The function that indicates how the quantity S behaves in relation to t in MRUV. The graph of S versus t and the slope of the tangent of the graph. Calculating, tabulating, and constructing the v versus t graph of a uniformly accelerated motion (MRUV). Torricelli's equation, the time-independent equation for MRUV. Dynamics. The fundamental law of dynamics, Newton's second law. The relationship between acceleration and force. Conservation of Energy. Coefficient of restitution, momentum, and kinetic energy in an inelastic collision. Data acquisition before and after the inelastic collision. Data acquisition from car 1 before the collision, sensor S0. What is meant by a system. Mechanical collisions, momentum, and kinetic energy. The coefficient of restitution between two colliding bodies. Momentum before and after an inelastic collision. Kinetic energy before and after the inelastic collision. Coefficient of restitution, momentum, and kinetic energy in an elastic collision. Data acquisition before and after the elastic collision. Momentum before and after a perfectly elastic collision. Kinetic energy before and after a perfectly elastic collision. Wave motion. Determining the spring constant of a mass-spring system (SHM). Measuring periods and calculating the average value. Determining the spring constant using the dynamic method, etc. Note: Multimeter and photoelectric sensors are not included.

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Details

Details with the main experiments