Citas bibligráficas
Zelada, D., (2020). Influencia de la programación académica en el indicador Teaching Cost de las carreras profesionales de ingeniería, pregrado adulto trabajador, Universidad Privada del Norte, sede Trujillo, 2018 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/24089
Zelada, D., Influencia de la programación académica en el indicador Teaching Cost de las carreras profesionales de ingeniería, pregrado adulto trabajador, Universidad Privada del Norte, sede Trujillo, 2018 [Tesis]. PE: Universidad Privada del Norte; 2020. https://hdl.handle.net/11537/24089
@mastersthesis{renati/526223,
title = "Influencia de la programación académica en el indicador Teaching Cost de las carreras profesionales de ingeniería, pregrado adulto trabajador, Universidad Privada del Norte, sede Trujillo, 2018",
author = "Zelada Mosquera, Danny Stephan",
publisher = "Universidad Privada del Norte",
year = "2020"
}
This research aims to determine the influence of academic programming, a main process, within the Quality Policy, in the management indicator “teaching cost“ of professional careers in Engineering, Undergraduate Adult Worker, Universidad Privada del Norte, Trujillo headquarters, 2018. The “teaching cost“ indicator measures the ratio of the total number of hours programmed to the teachers, during a week between the number of students enrolled who receive the academic service in the calculated time, and is created to efficiently and effectively manage the stages of planning and development of academic programming processes and enrollment. The correlation and regression of the total number of weekly hours programmed and the “teaching cost“ of the three careers of Engineering, Industrial Engineering, Civil Engineering and Mining Engineering, belonging to the Undergraduate Adult Worker program, through a comprehensive calculation, are analyzed, in addition to a particular calculation, by transversal courses of the departments of Sciences and Humanities, by specialized courses of each career and virtual courses of all the careers, according to the modular design (2 modules) of academic programming, tables and reports are discussed and graphics presented for each analysis. The financial impacts of the “teaching cost“ fluctuation are analyzed. It also evaluates the correlation and regression of the total number of weekly hours programmed and the particular enrollment for each item indicated above. It is observed in the results of the research that the academic programming of the semester 2018-5 of the careers of Engineering, undergraduate adult worker, produces a “teaching cost“ of 0.554, value that is within the requested range (less than 0.65 as a strategic indicator of the process). In addition, it is observed that the specialized face-to-face courses of the Mining Engineering career raise the ratio to an average value of 0.654, the courses of the academic departments of Sciences and Humanities, as well as the specialized face-to-face courses of the Industrial Engineering courses and Civil Engineering are responsible for balancing the ratio, for providing values within the expected range and the virtual courses of all careers produce the lowest “teaching cost“, with a value of 0.159. For the analysis of the total number of programmed weekly hours and “teaching cost“, the linear correlation coefficient, R2, is 0.1232, so it is concluded that there is no significant linear correlation between the weekly hours programmed and the “teaching cost“ . The pairs of grouped data corresponding to the analysis of the virtual courses and the specialized face-to-face courses of the Mining Engineering career, produce a high dispersion and a high value in their residuals, impacting on the value of the linear correlation coefficient. The linear regression model is y = 0.0003x + 0.3321. For the analysis of enrollment by item and the total number of weekly hours programmed, the linear correlation coefficient, R2, is 0.9569, then it is concluded that 95.69% of programmed weekly hours are based on enrollment. The linear regression equation obtained is y = 0.3093x + 3.7821, where 0.3093 is the slope of the regression line obtained and represents the “teaching cost“ indicator, which implies that, for each additional student registered in the enrollment of the semester, the number of hours scheduled per week increases by 0.3093. A set of recommendations are provided through factors or actions in the academic programming process that allow to optimize the “teaching cost“.
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