Intended for experimental study, physics laboratory work, and conducting physics experiments on: Kinematics, range, uncertainty, and velocity in a horizontal launch, measuring range, dynamics, the simple machine called a fixed pulley, the simple machine called a movable pulley, the mechanical advantage of the movable pulley, constructing the simple exponential pulley system with two elements and a fixed pulley, the mechanical advantage of the exponential pulley system, constructing the simple exponential pulley system with three elements and a fixed pulley, the movable pulley, constructing the simple parallel pulley system, the golden rule of mechanics, the characteristic curve of the elongation of a helical spring and a rubber band, 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 spring constant in helical springs in series, association of helical springs in parallel, the resulting spring constant in springs. Parallel helical springs, statics, conditions of stable, unstable, and indifferent static equilibrium, force diagram, equilibrium conditions of a suspended rigid body, polyhedral geometric solid, non-polyhedral geometric solid, homogeneous body, regular and irregular body, equilibrium conditions of an extended body, centroid (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, determining the values of potential energy, kinetic energy, and velocity at a given position on the trajectory, horizontal launch, range, uncertainty, and horizontal momentum, decomposition of two-dimensional motion into two one-dimensional rectilinear motions, impulse, momentum, imprecision of measurement, deviation of measurement, uncertainty of range measurement, average value of range, measuring the height of fall and determining the time interval that the projectile remains in the air (time of flight), the horizontal component of velocity, horizontal momentum, conservation of horizontal momentum, hydrostatics, the buoyant force acting on a body immersed in a liquid, correction of volume difference in an Archimedes cylinder, the weight of the body, the apparent weight of the body within the liquid, the force called buoyancy, Archimedes' principle, 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 weight of the fluid in which the body is submerged, density (absolute density) and specific mass, specific weight, measuring the value of buoyancy on a body submerged in potable water, measuring the value of buoyancy on a body submerged in salt water, 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 Amplitude of a simple pendulum for the same length, constructing tables and graphs, the law of isochronism of the pendulum, the law of masses and substances in pendulums, the law of lengths of the simple pendulum, observing the oscillating motion of a mass in a mass-spring system, mass-spring system and simple harmonic motion (SHM), dynamic determination of the elastic constant in an oscillating mass-spring system (SHM), measuring the weight and calculating the mass, measuring the period of SHM, etc.
Physics, mechanics of solids, kinematics, statics, dynamics, fluid mechanics, hydrostatics, periodic motion, wave motion, etc.