Time is one of the most fundamental quantities. Physicists associate many processes on Earth with it. For example, the motion of bodies is obvious for a human being. Knowledge of the laws of physics and the correct setting of the experiment help a person to express other quantities from time and constants. Using different measuring instruments one can empirically investigate physical processes. For conducting experiments on classical mechanics, I have developed a set of instruments.
Classical mechanics is a type of mechanics (a section of physics that studies the laws of changing the positions of bodies and the reasons that cause it), based on Newton’s 3 laws and Galileo’s principle of relativity. An important place in classical mechanics is occupied by the existence of inertial systems. Classical mechanics is divided into kinematics (which studies the geometrical property of motion without considering its causes), statics (which considers the equilibrium of bodies) and dynamics (which considers the motion of bodies.
Time in classical physics is a continuous quantity, an a priori characteristic of the world, not defined by anything. As a basis of measurement, a certain sequence of events is simply taken, about which it is considered undoubtedly true that it occurs at equal intervals of time, i.e. periodic. It is on this principle that clocks are based.
A body is a material object that has mass, volume and is separated from other bodies by an interface. A body is a form of existence of matter.
Force is a vector quantity, which is a measure of action on a body by other bodies or fields. A force is fully specified if its numerical value, direction and point of application are specified. Interaction can be realized both between directly contacting bodies (e.g., in impact and friction) and between distant bodies. The interaction between distant bodies is realized by means of gravitational and electromagnetic fields associated with them.
The developed complex consists of devices, they are also modules, the number of which depends on the purpose of the experiment. The “Main” module is the measuring center of the whole complex. In addition to the collection of logic on two inputs from the “Detector” modules and recording time in the memory buffer, the module automates the processes of input and output information, including switching the external load. The main task of the “Detector” modules is to detect the movement of the experimental body by IR beam. The module “Load Key” is used for physical impact on the experimental body. All modules are connected by cords of “Audio-Video” type with RCA sockets.