User:Carloscardenas: Difference between revisions
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Over 9 years of professional experience in areas of human capital, defense, education, strategic planning, business processes, information technology, business intelligence, information security, finance, marketing and brand management. Skill lidership, communication, creativity, system and strategic thinking for result oriented. | Over 9 years of professional experience in areas of human capital, defense, education, strategic planning, business processes, information technology, business intelligence, information security, finance, marketing and brand management. Skill lidership, communication, creativity, system and strategic thinking for result oriented. | ||
''Please go and read [[Help:Editing]].'' | |||
Code | Code | ||
<source lang=a4c> | |||
REQUIRE "atoms.a4l"; | REQUIRE "atoms.a4l"; | ||
MODEL vessel; | MODEL vessel; | ||
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VesselMass: metal_mass = metal_density * wall_vol; | VesselMass: metal_mass = metal_density * wall_vol; | ||
END vessel; | END vessel; | ||
</source> | |||
Revision as of 20:49, 20 April 2012
CARLOS CARDENAS
Calle Independencia 331, Urb Zarumilla - San Martin de Porres
Phone: (511) 4815857, Claro: 980525716, RPM: # 999314206 ccardenasf@pucp.edu.pe, carlos@cardenas.pe
Over 9 years of professional experience in areas of human capital, defense, education, strategic planning, business processes, information technology, business intelligence, information security, finance, marketing and brand management. Skill lidership, communication, creativity, system and strategic thinking for result oriented.
Please go and read Help:Editing.
Code
REQUIRE "atoms.a4l"; MODEL vessel; (* variables *) side_area, end_area IS_A area; vessel_vol, wall_vol IS_A volume; wall_thickness, H, D IS_A distance; H_to_D_ratio IS_A factor; metal_density IS_A mass_density; metal_mass IS_A mass; (* equations *) FlatEnds: end_area = 1{PI} * D^2 / 4; Sides: side_area = 1{PI} * D * H; Cylinder: vessel_vol = end_area * H; Metal_volume: (side_area + 2 * end_area) * wall_thickness = wall_vol; HD_definition: D * H_to_D_ratio = H; VesselMass: metal_mass = metal_density * wall_vol; END vessel;