- Body Planes and Sections: 1. Sagittal plane is a vertical plane that divides the body into right and left parts. A sagittal plane that lies exactly in the midline is the median plane‚ or midsagittal plane. All other sagittal planes‚ offset from the midline‚ are parasagittal planes. 2. Frontal planes‚ like sagittal planes‚ lie vertically. Frontal planes‚ however‚ divide the body into anterior and posterior parts. A frontal plane is also called a coronal plane. 3. Transverse or horizontal‚ plane
Premium Force Brain Color
Sharif College of Engineering and Technology Subject: Fluid Dynamics Submitted by: HAFIZ M.ATEEQ UR REHMAN Department: Chemical Engineering Roll No. 28 Submitted to: Madam Asma Ashraf Dated: 12-04-2013 STEPS INVOLVED IN THE SELECTION FLOW METER There are well over 20 different types of flow meters‚ even if we lump the various positive-displacement flow meters together as one type. Unless the process engineer knows the pros and cons
Premium Fluid dynamics Viscosity Fluid mechanics
Should you fail to attend either one you will be asked to complete some extra work. This will involve a detailed report and further questions. The simplest strategy is to do the lab.] Notes For the First Year Lecture Course: An Introduction to Fluid Mechanics School of Civil Engineering‚ University of Leeds. Homework: Example sheets: These will be given for each section of the course. Doing these will greatly improve your exam mark. They are course work but do not have credits toward
Premium Viscosity Fluid Force
FLUID FRICTION MEASUREMENTS YEDITEPE UNIVERSITY DEPARTMENT OF MECHANICAL ENGINEERING 1 YEDITEPE UNIVERSITY ENGINEERING FACULTY MECHANICAL ENGINEERING LABORATORY Fluid Friction Measurements 1. Objective: Ø To determine the head loss. Ø To determine the head loss associated with flow of water through standard fittings used in plumbing installations. Ø To determine the relationship between friction coefficient and Reynolds’ number for flow of water through a pipe having a roughened bore
Premium Fluid dynamics
point in a fluid has the same magnitude in all directions. (Pressure is a scalar) Variation of Pressure with Depth It will come as no surprise to you that pressure in a fluid at rest does not change in the horizontal direction. This can be shown easily by considering a thin horizontal layer of fluid and doing a force balance in any horizontal direction. However‚ this is not the case in the vertical direction in a gravity field. Pressure in a fluid increases with depth because more fluid rests on
Premium Fluid dynamics Force Fluid mechanics
The Varying Effects of Pollution on the Environment James Fields Indiana University Southeast Abstract This paper explores the varying effects of pollution on the environment and human interaction by explaining the history of human’s tendency to pollute and giving several examples that created many regulations that help in decreasing pollution. Many studies in this paper help to explain how pollution is directly related to human interaction such as the study by Keith Gaby that show a correlation
Premium Water pollution Air pollution Pollution
Chapter 6 Study Guide Fluids‚ Electrolytes‚ and Acid-Base balance Compartmental Distribution of Body Fluids 2/3 of the body’s water is contained in the ICF‚ the remaining 1/3 is in the ECF ICF fluid volume is regulated by proteins and other non-diffusible organic compounds in cells Interstitial fluids (IF) act as a transport vehicle for gasses‚ nutrients‚ wastes‚ and other materials 14%-16% of body weight Reservoir for maintenance of vascular volume; used during hemorrhage
Premium Blood Blood pressure Carbon dioxide
Drunk driving “Please blow into this machine. Thank you.” If you are a driver‚ this sentence is familiar to you. Many police examine drunk driving at the crossroads every day. Meanwhile‚ numbers of advertisements and messages on TVs and radios persuade us not to drive after drinking. Driving without drinking has become a common understanding. But why do we have to accept this? And what would we do if somebody is drunk driving? Today‚ I hope to convince you that drunk driving is terrible and that
Premium Person Automobile Drinking culture
Intravenous Fluid Selection LEARNING OBJECTIVES By the end of this chapter‚ you should be able to: Describe and differentiate colloid and crystalloid IV fluids Understand osmosis as it pertains to water movement with IV therapy Define tonicity and the actions of isotonic‚ hypotonic‚ and hypertonic crystalloids in the body Identify the three most common IV solutions used in the prehospital setting‚ and classify them as isotonic‚ hypotonic‚ or hypertonic Describe how an IV fluid is packaged and
Premium Intravenous therapy Blood
Fluid Catalytic Cracking Fluid catalytic cracking* (FCC) is the most important conversion process used in petroleum refineries. It is widely used to convert the high-boiling hydrocarbonfractions of petroleum crude oils into more valuable [1][2][3] gasoline‚ olefinic gases and other products. . Cracking of petroleum hydrocarbons for conversion of heavy fractions into lighter fractions was originally done by thermal cracking which has been almost completely replaced by catalytic cracking because
Premium Petroleum Oil refinery