Economy questions, form of test banks, with answers
Sample Morning Exam for PhilNITS FE Exam. Fundamental Engineer. Examination for Certificate.
Please make the solution according the following headers: Given, To Find, Assumptions, Properties (Give Reference – Book and Table No.), and Schematic if any, Actual solution. 2. Please be…Full description
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Función actual del Derecho Civil. UNNE
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1Z0-535 Exam Questions
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statistical inference exam
POINTERS TO REVIEW ON MMUP EXAMINATION (as per my actual set of questionnaire) Statistics Median Engineering Economics Exact Simple Interest I = Pin where: P = present worth i = rate of interest n = d/365 - for ordinary year n = d/366 - for leap year
Engineering Mechanics Rectilinear Motion In Uniform motion: S = Vt where: S = is the distance traversed (displacement) in ft/cm/m V = is the velocity in ft/s, m/s, cm/s t = is the time in secs
Strength of Materials Moment and Reactions For Fixed Support For Internal Pin Simple Stress S = P/A where: S = unit strength of material or stress P = axial force (compressive or tensile) A = cross sectional area (uniform) Types of Stress Axial Stress Shearing Stress Bearing Stress Longitudinal Stress Simple Strain strain = elongation (change in length) / original length Hooke's Law
Impulse Momentum Theorem m(Vf-Vo) = F(tf-to) where: Vo = original velocity m = mass t = time Vf = final velocity F = average
Fluid Mechanics / Thermodynamics Steady Flow System m1 = m2 A1V1p1 = A2V2p2 where: A = cross sectional area V = velocity p = density Boyle's Law P1V1 = P2V2
S=
PL AE
where: E = modulus of elasticity S = stress L = original length Poisson's Ratio define as longitudinal strain over lateral strain Helical Spring Exact Formula: S = 64PR^3n / Gd^4 where: P = applied load D = mean diameter of the spring helix n = no. of turns G = modulus of Rigidity d = diameter of spring wire R = radius Beam Deflection and Moments Simply Supported
Mass M = W/g where:
Roof Trusses / Space Trusses m = mass g = 9.81 m/s2 = 32.2 ft/s2
Density
PERT CPM p = m/v
where: p = density m = mass v = volume Pipes in Parallel Q = Q1+Q2+Q3 where: Q = Discharge
Critical Path Activity / Work / Duration Definition of Terms QCS Poisson's Ratio Dispute Force Majure
Note: I am supposed to bring my solution/answers on the scratch but the examiner took it from me. But I hope this will help you pass the exam This is based on my actual set of questionnaire. Most formulas are direct substitution. Some questions can be answered logically. Good Luck to All. Engr. Norman Reyes Bulayan QS Engineer - Barracks Project
