By Course Code:ACCT AINV ALLH AQUA ARTH ARTS AUDV AVAT BIOH BIOL BIOT BLAR BLCN BLOC BLSV BMED BMSC BOTN BUSN CHEM CHIR CNSL COIS COIT COMM COMT CQUN CREA CULT DGTL DNCE DRMA ECOM ECON EDCU EDEC EDED EDEL EDFE EDHE EDSE EDVT ENAC ENAE ENAG ENAM ENAR ENCO ENEA ENEC ENEE ENEG ENEM ENEP ENEV ENIM ENMG ENML ENMM ENPG ENPO ENRG ENSD ENSE ENTA ENTC ENTE ENTG ENTI ENTM ENTZ ENVH ENVR ESSC EVST FAHE FARM FILM FINC FSEH GENE GEOG GEOH GOVP HIST HLPB HLTH HLTP HMGT HMSC HRMT HUMT IEXC INDG JALC JAPN JAZZ JOUR LAWS LITR LNGC LNGE LOTE MARN MATH MBIO MDWF MEDI MEDS MGMT MMST MNTR MQPR MRKT MUSC NHLT NHPE NURS NUTR OCCT OCHS OLTC ORAL PERF PHRM PHYG PHYS PMSC PODI PPMP PROP PSIO PSYC RAIL RELG SAFE SCIE SKIL SOCL SOWK SPCH SREC STAT SWHS THTR TOUR VART WELF WRIT ZOOL
ENEM12006 Fluid Mechanics
This course introduces the fundamental properties of fluids, analysis of pipe flow and analysis of buoyancy and stability of floating objects. It presents methods of analysing fluid systems using the concept of a control volume combined with the conservation of mass and momentum equations. Students analyse incompressible flows in pipe systems and use similitude and modelling principles and techniques to solve problems in fluid mechanics. Students will prepare technical and laboratory reports using appropriate "mechanical engineering language", and document the process of modelling and analysis. They are required to act professionally in presenting information, communicating, working and learning, both individually and in teams.
Distance education (FLEX) students must have access to a computer and make frequent use of the Internet. FLEX students will be required to attend a residential school.
Course at a glance
|Requisites:||Prereq: [PHYS11182 or PHYS11184] and [PHYS11183 or PHYS11185]|
|Student Contribution Band:||2|
PRINT WARNING - Printed copies of this document or part thereof should not be relied upon as a current reference document. ALWAYS refer to the electronic copy for the latest version.