| P | Internal | External | | | CET-201 | Fluid Mechanics-I | 3 | 1 | 0 | 40 | 60 | 100 | 3.5 | AMT-210 | Mathematics – III* | 3 | 1 | 0 | 40 | 60 | 100 | 3.5 | CET-202 | Rock Mechanics & Engg. | 3 | 0 | 0 | 40 | 60 | 100 | 3 | CET-203 | Strength of Materials | 3 | 2 | 0 | 40 | 60 | 100 | 4 | CET-204 | Surveying –I | 3 | 1 | 0 | 40 | 60 | 100 | 3.5 | CET-205 | Civil Engg Materials | 3 | 0 | 0 | 40 | 60 | 100 | 3 | CEP-206 | Fluid Mechanics-I Lab | 0 | 0 | 2 | 60 | 40 | 100 | 1 | CEP-207
Premium Concrete Fluid dynamics
increases 855 k Pa when the piston is moved a distance of 734mm into the pipe. If the temperature of the liquid =300 C‚ how far down the pipe would you estimate the obstruction to be? 3- Derive an expression for the capillary height change h for a fluid of surface tension σ and contact angle θ between two vertical parallel plates a distance w. What will h be for water at 38o C if w= 0.66mm? 4- A student in freshman chemistry‚ who knows nothing about the correction due to the meniscus caused
Premium Atmospheric pressure Liquid Mercury
separate materials. This objective of this experiment is significant in that it gives valuable information on how to determine the material composition of an object when given very vague information. From information learned in the accompanying Fluid Mechanics lecture course‚ basic formulas can be applied to solve for the specific weight of the object in question. The experiment performed will involve the buoyancy principle and include calculating the volume displaced of a submerged object. This is
Premium Density Archimedes Force
CVE3208 | Fluid Mechanics | Lab Report | 2012 Experiment 2 Impact of Jet CVE3208 Fluid Mechanics Ahmed Sujeeth I11009050 BCEGI - Semester 4 Lecturer: Dr. Khin Maung Win 19th November 2012 Page 1 of 9 Ahmed Sujeeth | I11009050 | BCEGI CVE3208 | Fluid Mechanics | Lab Report | 2012 Title : Impact of Jet To investigate the validity of theoretical expressions for the force exerted by a jet on targets of various shapes. The impact of jet on a surface is a common day engineering application. One
Premium Force Fluid dynamics
MEHB221 Fluids Mechanics Lab 2014 Experiment No. 5 HEAD LOSS DUE TO PIPE FRICTION Objective To verify that Darcy-Weisbach equation can be used to predict the head loss due to friction with flow of water through a smooth bore pipe. Apparatus Fluid Friction Apparatus‚ FM100. Hydraulic Bench‚ FM110. Summary of theory For water flowing through a circular pipe‚ the head loss due to the friction can be calculated using Darcy-Weisbach equation. h = 4fLu2 2gd Or h = λLu2 2gd Where L = length of pipe
Premium Fluid dynamics Viscosity
Fluid Mechanics Flow Past a Circular Cylinder The behaviour of flow around and past bodies that are circular in the crosssection is very important‚ mainly because there are so many matching scenarios out there. Golf balls‚ over head cables and underwater supports are just a few examples of circular cross-sections and how studying flow in this case is important. Let us take golf balls for example‚ they have been engineered in such a way from them being perfectly round‚ to having small indents
Premium Fluid dynamics Viscosity
known as drilling fluid density is a very important property of the drilling fluid which must be determined regularly during the drilling process. It is defined as the weight per unit volume of the drilling fluid or drilling mud usually expressed in units of g/cm3 or more conveniently lb/gal. Drilling fluid density or mud weight must be measured at regular intervals of the drilling process because as different formations are encountered during the drilling process‚ different fluids and substances are
Premium Water Liquid Density
flow meter from different typical methods of measuring the discharge of an incompressible fluid. This can be identify by measuring the flow rate and the head loss with later to be compared to the different flow meter which is venture meter‚ orifice meter and rotameter. INTRODUCTION The objectives of this experiment are to demonstrate the characteristics of some various commonly used methods of measuring fluid flow rates and to identify the head losses associated with each flow measuring apparatus
Premium Fluid dynamics
MECHANICS OF MERGERS & ACQUISITIONS Change is ubiquitous in contemporary society‚ and nowhere more so than in the operations of the large-scale‚ public corporation. Dramatic changes are underway‚ not only in the structure of corporate activity in areas such as the nature of work and the nature of organizational form‚ but also in the product and financial markets and the regulatory environment within which corporations operate. The depth and rapidity of these changes compel a reassessment of
Premium Mergers and acquisitions
ABSTRACT/ SUMMARY The objective of this experiment is to determine the characteristics of open-channel flow. The types of flow to be determined are rectangular notch and triangular v-notch. Another objective of the experiment is to determine the discharge coefficients for both notches. The experiment for rectangular notch begins with admitting water to the channel. At this point‚ the water flow must be adjusted by using control valve in order to obtain heads (H). Throughout the experiment‚ five
Premium Volumetric flow rate Fluid dynamics Mass flow rate