Bibliography: 1. CIT laboratory manual: Fluid mechanics-B.S. Massey‚ Applied mechanics - J.D. Walker‚ Fluid mechanics - Irfan A. Khan‚ Mechanical Engineering Science- J. Hannah and M.J. Hiller. 2. Wikipedia – formulas / units confirmation 3. http://fetweb.ju.edu.jo – general information on each measuring meter used.
Premium Fluid dynamics Mass flow rate
University of Bahrain College of Engineering Department of Civil Engineering and Architecture Fluid Mechanics CENG231 Osborne Reynolds Demonstration Sayed abbas Mohamed 20104762 03 1. Objective: To reproduce the classical experiments conducted by Professor Osborne Reynolds concerning fluid flow condition. 2. Theory: Reynolds number‚ Re is the internationally recognized criterion denoting fluid flow condition. “ Re = 4Q/ πvd ” Osborn Reynolds determined that values
Premium Fluid dynamics Viscosity Reynolds number
Respiratory Mechanics 1 Note there is an error in your lab book! The starting radius for the flow tube diameter should be 5mm in each experiment and NOT 6mm.Use your computer link to ADAm for this part of this week’s lab. You are also responsible for the PowerPhys lab report. Measuring Normal Respiratory Volumes 1) Calculate the minute respiratory volume using the tidal volume and breaths per minute (pump rate). 2) Define the following terms: a. Respiration- The act of breathing
Premium Lung Respiratory system Oxygen
When people succeed‚ it is because of hard work. Luck has nothing to do with success.” Do you agree or disagree with the quotation above? 1. agree with the statement 2. People success because they work hard 3. Isaac Newton 4. on the other and people success but not working hard 5. People can only success after the work hard I agree with the statement the when people succeed it is because of hard work‚ luck has nothing to do with success. First of all‚ people success because they work
Premium Isaac Newton Classical mechanics Force
Chapter 9 Problems 1‚ 2‚ 3 = straightforward‚ intermediate‚ challenging Section 9.1 Linear Momentum and its Conservation 1. A 3.00-kg particle has a velocity of [pic]. (a) Find its x and y components of momentum. (b) Find the magnitude and direction of its momentum. 2. A 0.100-kg ball is thrown straight up into the air with an initial speed of 15.0 m/s. Find the momentum of the ball (a) at its maximum height and (b) halfway up to its maximum height. 3. How fast can you set the Earth
Premium Classical mechanics Kinetic energy Mass
Assignment 1 Problem No 4 is due 1- A body weighs 4800N when exposed to a standard earth gravity g = 9.8066 m/s2. (a) What is its mass in kg? (b) What will the weight of this body be in N ewton if it is exposed to the moon’s standard acceleration gmoon = 1.62 m/s2? 2- A rigid pipe of diameter d = 3500mm and 5km long is used to pump water. An obstruction plugs the pipe at an unknown location so that no liquid can flow. A piston is placed in one end of the pipe and slides (without leakage)
Premium Atmospheric pressure Liquid Mercury
Review of Chapter 1 and 2 • Reading work for this week – Please go through entire chapter 1 and 2 and work out the example problems in the text without reading the solutions Chapter 1 • Equilibrium of deformable body – Free-body diagrams • Concept of stress – Normal and shear stress – Factor of safety – Design of connections 1.2 Equilibrium of a Deformable Body External Loads • • • Surface forces are caused by direct contact Concentrated forces are applied to a point Linear Distributed
Premium Force Continuum mechanics
My next steps after high school are pretty simple. I plan to work for a while to keep helping my parents with the house bills. After a while I plan on joining the Marine Corps and study for my career as a car mechanic. The plans I have will benefit me and my parents in a lot of ways. I will technically be working and studying for my career at the same time‚ so I won’t have to be worrying about making enough money to pay for my education and have to stay up late at nights to catch up on my work. I
Premium Employment Management Wage
BPH – Tut # 2 Fluid Mechanics – University of Technology‚ Sydney – Engineering & IT Tutorial # 2 – Questions and Solutions Q.1 For the situation shown‚ calculate the water level d inside the inverted container‚ given the manometer reading h = 0.7 m‚ and depth L = 12 m. Q.2 (from Street‚ Watters‚ and Vennard) The weight density γ = ρg of water in the ocean may be calculated from the empirical relation γ = γo + K(h1/2)‚ in which h is the depth below the ocean surface‚ K a constant‚ and
Premium Pressure Ocean Atmospheric pressure
What are we made of??? Throughout the years the Quantum Mechanic model has evolved many times. This evolution has taken place after every major discovery in Quantum Mechanics. The current Quantum mechanic model is by far the most accurate example of an atom and how it works. Currently the model depicts a proton (or more than one depending on the atom) and neutron in the nucleus and a an electron rotating around the nucleus in an energy level‚ or an estimated path of the electron. The first person
Premium