Intended for experimental study, a physics laboratory and the performance of physics experiments on: Kinematics, range, uncertainty and velocity in a horizontal launch, measuring the range, dynamics, the simple machine called a fixed pulley, the simple machine called a movable pulley, the mechanical advantage of the movable pulley, building the simple machine, a two-element exponential winch with a fixed pulley, the mechanical advantage of the winch. exponential, constructing the simple machine, the three-element exponential winch with a fixed pulley, the simple machine with a parallel ratchet, the golden ratio of mechanics, the characteristic curve of the elongation of a helical spring and a rubber belt, elastic hysteresis, Hooke's law in a helical spring, the restoring force of the spring and Newton's third law, association of helical springs in series. elastic deformation and plastic deformation, resulting elastic constant in helical springs in series, parallel arrangement of helical springs, the resulting elastic constant in helical springs in parallel, statics, stable, unstable, and neutral equilibrium conditions, force diagram, equilibrium conditions of a suspended rigid body, geometric polyhedron, non-polyhedral geometric solid, body homogeneous, regular and irregular body, equilibrium conditions of an extended body, center of gravity, conservation of mechanical energy, work and mechanical energy in a mass-spring system, mechanical work, work done by the force along the central axis of the spring, elastic potential energy and kinetic energy (energy of motion), principle of conservation of mechanical energy in a mass-spring system helical, determining the values of potential energy, kinetic energy and velocity at a given point on the trajectory, horizontal launch, range, uncertainty, and horizontal momentum, decomposition of two-dimensional motion into two one-dimensional straight-line motions, propulsion, momentum, measurement inaccuracy, measurement deviation, uncertainty in the measurement of the range, average range value, measuring height fall and determining the time interval that the projectile is in the air (flight time), the horizontal component of the velocity, horizontal momentum, conservation of horizontal momentum, hydrostatics, the buoyant force acting on a body immersed in a liquid, correction of the volume difference in an Archimedes' cylinder, the weight of the body, the apparent weight of the body within the liquid, the force called buoyancy, principle of Archimedes, fluid, principle of impenetrability of matter, the value of buoyancy depends on the weight of the volume of fluid displaced, buoyancy depends on the specific gravity of the fluid in which the body is immersed, density (absolute density) and specific gravity, specific gravity, measuring the value of buoyancy in a body immersed in potable water, measuring the value of buoyancy in a body immersed in saltwater, the force called buoyancy, determining the absolute density of the solid, using buoyancy, wave motion, the simple pendulum and its laws, ideal simple pendulum, elongation and amplitude in the motion of the simple pendulum, period and frequency as a function of the amplitude of the simple pendulum for the same length, constructing tables and graphs, law of isochronism of the pendulum, law of masses and swinging bodies, law of lengths of the simple pendulum, observing the oscillating motion. from mass in a mass-spring system, mass-spring system, and simple harmonic motion (SHM), dynamic determination of the spring constant in a helical mass-spring oscillating system (SHM), measuring weight and calculating mass, measuring the period of SHM, etc.
Physics, mechanics of solids, kinematics, statics, dynamics, mechanics of fluids, hydrostatics, periodic motion, wave motion, etc.