PRAXIS Semester 1 Fluid Mechanics Lab Report Contents Objective 3 Theory 3 Experimental Method 4 Equipment needed for this experiment 4 Procedure 4 Results 5 Discussion of Results 6 Sources of errors 8 Conclusions 8 References 8 Objective The objective of performing this experiment is to measure the hydrostatic force on a partially submerged vertical surface and to compare the force found in the experiment to the theoretical equivalents. Theory A submerged body will
Premium Force Measurement Archimedes
Department of Mechanical Engineering Indian Institute of Technology‚ Delhi Hauz Khas‚ New Delhi-110016 Abstract Environmental concerns call for the reduced use of cutting fluids in metal cutting practice. Minimum quantity lubrication (MQL) machining is one of the promising solutions to the requirement for decrease in cutting fluid consumption. This paper reports the results of an experimental work to investigate the effect of a well-designed MQL set up on machining constraints like tool forces and
Premium Machining Fluid dynamics Fluid mechanics
Nama Mata Pelajaran/Subject Name | Mekanik Bendalir I / Fluid Mechanics I | Kod/ Code | MCB2013 | Status Mata Pelajaran/Subject Status | Teras Umum/ Common Core | Peringkat/ Level | Sarjana Muda/ Bachelor | Nilai Kredit/Credit Value | 3 | Prasyarat (jika ada)/Prerequisite (if any) | Statik / Statics | Penilaian/ Assessment | Kerja Kursus / Coursework (Tests‚ Assignments‚ Lab) 50%Peperiksaan Akhir / Final Exam 50% | Tenaga Pengajar/Lecturer | Dr Azuraien Jaafar/ Mr Faizairi M Nor/
Premium Fluid dynamics Fluid Fluid mechanics
Task 1 Q1) Explain the various principles involved with hydraulic fluids (P1) There are 4 types PASCAL’S LAW DIFFRENTIAL AREAS BRAMAH’S PRESS BERNOULL’S PRINCIPLE Pascal’s Law Pascal’s law defines the fundamental principle of power transmission by hydraulic system. The Pascal’s Law is the main principle behind all hydraulic systems. It is stated pressure is an enclosed container is transmitted equally and undiminished to all parts of the container and acts at right angles to enclosed walls
Premium Hydraulic machinery Hydraulics Fluid dynamics
largest satellites of Jupiter: Io‚ Europa‚ Callisto‚ and Ganymede | Blaise Pascal | 1623-1662 French | discovered that pressure applied to an enclosed fluid is transmitted undiminished to every part of the fluid and to the walls of its container (Pascal’s principle) | Leonard Euler | 1707-1783 Swiss | made fundamental contributions to fluid
Premium Galileo Galilei Fluid dynamics Viscosity
Microfluidic structures are a relatively new topic of study. While the concept of fluids and the study of the flow of fluids through all sorts of various forms of ducts‚ environments and scenarios have been extensively studied by some of the greatest minds of in history‚ the novelty of microfluidics is not surprising. This is due to the fact that despite the fact that the previously mentioned minds have scrutinized fluid mechanics‚ it is still a concept that is cloudy at best. However‚ before this concept
Premium Fluid dynamics Viscosity Fluid mechanics
pressure‚ velocity‚ and elevation in a moving fluid (liquid or gas)‚ the compressibility and viscosity of which are negligible and the flow of which is steady‚ or laminar. In order to demonstrate the Bernoulli’s theorem Bernoulli’s Apparatus Test Equipment issued in this experiment. THEORY • Velocity of fluid is less fluid • The fluid is incompressible and non- viscous • There is no heat energy transferred across the boundaries of the pipe to the fluid as either a heat gain or loss. •
Premium Fluid dynamics Fluid mechanics
MEHB221 Fluids Mechanics Lab Experiment No. 4 REYNOLDS NUMBER Objective To investigate the relationship of flow condition and fluid velocity. Apparatus TecQuipment Reynolds Number and Transitional Flow Apparatus‚ H215 / 215A TecQuipment Hydraulic Bench‚ H1 Figure 1: Schematic Diagram of Reynolds Number and Transitional Flow Demonstration Apparatus 1 2014 MEHB221 Fluids Mechanics Lab 2014 Summary of Theory Consider the case of a fluid moving along a fixed surface such as the wall of a
Premium Viscosity Fluid mechanics Fluid dynamics
handle the equipment with care to avoid any damage. Before opening the pipe flow we checked all the safety precaution and the experiment is done one by one by my group members and me. Objective To investigate the relationship of flow condition and fluid velocity. Data‚ Observations and Results Table 1 Sample calculation Flow rate‚ Q = volume(mᵌ)time(s) = 0.001259 =0.00000385 mᵌ/s The area is A=πd²4 = 3.14159×(0.012)²4 =1
Premium Reynolds number Viscosity Fluid mechanics
Difference between Static and Dynamic RAM The journey of dynamic and static RAM was initiated in 1960s which was readily developed in 1970s. In recent days‚ the technology is much more user friendly. RAM is classified into two types: Dynamic RAM and Static RAM. Static RAM uses a form of flip-flop to circulate data. It uses almost six transistors for its functioning. On the other hand‚ Dynamic RAM (DRAM) is typically charged on the capacitor in it. Static RAM holds the data in the
Premium Computer data storage MOSFET