Cidepe

Function

Intended for experimental study, physics laboratory and carrying out physics experiments on: Solid mechanics. Kinematics. Reference frame, position, movement and trajectory. What are the characteristics of the MRU? The meeting of two mobiles in MRU with opposite directions. The MRUV and its characteristics, displacement in one dimension. The MCU, uniform circumferential movement. The free fall movement with a test specimen of 10 equal intervals. The free fall movement with a test specimen of 10 different intervals. The relativity of movement according to the reference frame. The combined movement of an MRU with an MCU. Coupling of pulleys by belt and gears. Statics. The composition of concurrent coplanar forces with 120° to each other. The composition of concurrent coplanar forces. The composition of concurrent coplanar forces, with 90° to each other. The composition of concurrent coplanar forces, with 60° to each other. The equilibrium conditions of the rigid body, Varignon's theorem. Equilibrium of a rigid body, the interfixed lever, Varignon's theorem. Equilibrium of a rigid body, the inter-resistant lever, Varignon's theorem. Equilibrium of an applied rigid body, the interpotent lever, Varignon's theorem. The driving force, the resistant force and mechanical advantage of the inclined plane, a simple machine. The equilibrium conditions of a mobile on an inclined plane. Dynamics. Relationship between mass and weight, graph, function and value of local g. The helical spring and Hooke's law. Friction forces and Newton's first law of motion. Determination of the coefficients of static, kinetic and sliding friction on an inclined plane. The mobile pulley and its mechanical advantage. The exponential hoist and its mechanical advantage. The parallel block and its mechanical advantage. Building a freight elevator with fixed pulleys and platform. Applications of fixed and mobile pulleys in a freight elevator system. Centripetal force as a function of mass, tangential velocity and radius in an MCU, with sensor. Centripetal force as a function of angular velocity, sensor. Centripetal force as a function of frequency. Centripetal force as a function of the mass of the body. Centripetal force as a function of the radius of the trajectory. Conservation of angular momentum, with sensor and multitimer. Frequency, period and critical angular velocity of the conical pendulum, with sensor and multitimer. Conservation of Energy. The principle of conservation of mechanical energy in a falling cylinder. Conservation of mechanical energy, moment of inertia. Work and energy in a system of mass and helical spring. Hydrostatics. Buoyancy, a vertical force oriented from bottom to top. Archimedes' principle. Determining the density of a solid through buoyancy. Pressure at a point in a liquid in equilibrium, Stevin's Theorem. Universal gravitation. Kepler's laws for planetary motion. Wave motion. Dynamic determination of the spring constant of a helical spring. The SHM from a UCM. The behavior of the elongation, velocity and acceleration of the projection in y, when the body transits in UCM through different quadrants, etc.

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Details with the main experiments