Using the possibilities of modern science and technology, it can be said that the presented mathematical model has been formulated without significant simplifications, and its (numerical) solution itself will be performed with high accuracy. The main purpose of the work was to create a tool supporting the calculation of the main problem of internal ballistics for barrel propellant systems in order to achieve digital solutions as close as possible to the results obtained using experimental ballistics methods. The scientific hypothesis of the work postulates that the physical model of internal ballistics formulated in Lagrange coordinates will allow to solve the main problem of internal ballistics of barrel systems in a digital way, obtaining such solution results that will satisfactorily reflect the solution results obtained using experimental ballistics methods. The results of digital simulations of physical phenomena of solutions to the main problem of internal ballistics of barrel weapons were compared with the results of experimental tests and the degree of agreement was determined.

利用现代科学技术的可能性，可以说，所提出的数学模型是在没有显着简化的情况下制定的，并且其（数值）解决方案本身将以高精度执行。这项工作的主要目的是创建一个支持枪管推进剂系统内弹道主要问题计算的工具，以实现尽可能接近使用实验弹道方法获得的结果的数字解决方案。这项工作的科学假设假设，在拉格朗日坐标中制定的内弹道物理模型将允许以数字方式解决枪管系统内弹道的主要问题，获得的解决结果将令人满意地反映使用实验获得的解决结果弹道学方法。将解决枪管武器内弹道主要问题的物理现象数字模拟结果与实验测试结果进行比较，确定吻合程度。