## Luis Carlos Vega Renteria

ID:2023
First Name:Luis Carlos
Last Name:Vega Renteria
Last Change:2010-07-14
Number of Files:9 (166th most prolific)

 Canales de Remanso 3.0   (details) 49/50 ESP   4 KB / 6 KB Helps you calculate the backwater channels or length of a curve. By Luis Carlos Vega Renteria. 2008-08-09

 Esfuerzos combinados en Diseño Mecanico 1.0   (details) 49/50 ESP   3 KB / 4 KB Contains all the equations used to analyze a load through combined forces, for use with a mechanical design course. By Luis Carlos Vega Renteria. 2008-08-09

 Esfuerzos Fluctuantes en Diseño Mecanico 1.0   (details) 49/50 ESP   2 KB / 3 KB Contains all the equations used to analyze a force by fluctuating load, for use with a mechanical design course. By Luis Carlos Vega Renteria. 2008-08-09

 Fatiga en Diseno Mecanico 1.0   (details) 49/50 ESP   3 KB / 3 KB Contains all the equations used to analyze a load through fatigue, for use with a mechanical design course. By Luis Carlos Vega Renteria. 2008-08-09

 Inercia de Solidos Rigidos 0.1   (details) 49/50 ESP   3 KB / 12 KB Calculates inertias of rigid solids like spheres, hemispheres, cones, thin plates, and more. Written in User RPL. By Luis Carlos Vega Renteria. 2007-08-04

 Interpolacion Simple y Doble by LCVR 3.0   (details) 49/50 ESP   2 KB / 2 KB This program offers two interpolation types, single and double. It's quick and easy to use. Written in 90% System RPL and 10% User RPL. By Luis Carlos Vega Renteria. 2010-07-14

 Movimiento de Tierras LCVR 1.0   (details) 49/50 ESP   30 KB / 11 KB Solves the matrix for moving earth, finding the "Prog" vs. "OM" and also calculates all the manipulations of the columns of the matrix. Written in User RPL. By Luis Carlos Vega Renteria. 2008-01-12

 Partidor de Corriente y Voltaje 2.0   (details) 49/50 ESP   3 KB / 4 KB Performs calculations on current and voltage depending on the number of resistors or impedances. By Luis Carlos Vega Renteria. 2008-08-09

 Resortes en Diseno Mecanico 1.0   (details) 49/50 ESP   4 KB / 11 KB Contains all the equations used to analyze a spring, for use with a mechanical design course. By Luis Carlos Vega Renteria. 2008-08-09

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