120 likes | 132 Views
Survey + $150 !!!. The Faculty of Science is conducting an online survey to help us better understand your educational and career goals, and your views on how well your undergraduate program is helping you reach those goals. Faculty of
E N D
Survey + $150 !!! The Faculty of Science is conducting an online survey to help us better understand your educational and career goals, and your views on how well your undergraduate program is helping you reach those goals. Faculty of Science students will find the survey at http://iserv.mcmaster.ca/science/survey.htm and it will be available until April 23rd. The survey will take about 5 minutes to complete, and the department will be awarding $150 Titles gift certificates to two students who complete the survey. Your input as a Science student will help us ensure that the quality of undergraduate education in the Faculty of Science is as high as we can make it. Physics 1B03summer-Lecture 12
Fluid Mechanics • Pressure • Pascal’s Law • Pressure and Gravity • Buoyancy Physics 1B03summer-Lecture 12
Fluids • Includes liquids and gases. No resistance to “shear” (changes in shape), in equilibrium. • To describe mechanics of a continous fluid (instead of a discrete object), we use density, pressure instead of mass and force. • Dynamics is approached from an energy perspective (Bernoulli’s equation—next lecture) . Physics 1B03summer-Lecture 12
Density Density, r (“rho”), is mass per unit volume (kg/m3). Specific Gravity (“SG”) is the ratio: (density of substance)/(density of water), which is a pure number (no units). Substance r SG water 1000 kg/m3 1 mercury 13600 kg/m3 13.6 air 1.29 kg/m3 0.00129 helium 0.18 kg/m3 0.00018 Physics 1B03summer-Lecture 12
Pressure P force per unit area unit: 1 N/m2= 1 pascal (Pa) Also, 1 atmosphere (atm) = 101.3 kPa Pressure is a scalar property of the fluid; the force is always exerted perpendicular to the surface in contact with the fluid. Forces exerted by the fluid Physics 1B03summer-Lecture 12
Pascal’s Law: Pressure in an enclosed fluid in equilibrium is the same everywhere, except for differences due to gravity. Or, pressure changes are transmitted throughout a fluid in equilibrium without loss; there is no static friction in fluids. push here Pressure increases here as well Physics 1B03summer-Lecture 12
Example: How hard do you need to push to lift a cement truck (weight w = 200 kN)? w piston, radius 100mm F1 = ? piston, radius 5mm Physics 1B03summer-Lecture 12
Pressure variation with depth Pressure increases with depth, by an amount P2 – P1= r gh (if r and g are uniform). P1 h Proof: Consider forces on a cylinder of fluid P2 Physics 1B03summer-Lecture 12
“Gauge Pressure” : pressure difference between a fluid and the surrounding atmosphere. It is equal to P2–P1. Example: a tire gauge measures gauge pressure, and reads zero when the air inside the tire is at atmospheric pressure. “Absolute Pressure” is the pressure compared to vacuum. Zero absolute pressure means a vacuum. Example: the pressure on the surface of the earth. Physics 1B03summer-Lecture 12
ExampleAt what depth in water is the pressure 1 atm higher than the pressure on the surface? That is, where is P=2atms ? Physics 1B03summer-Lecture 12
ExampleWhat is the difference in air pressure between the floor and the ceiling? Physics 1B03summer-Lecture 12
ExampleWhat is the total mass of air directly above a 1-metre square, from ground level all the way to outer space? Approximately how thick is the atmosphere, assuming (incorrectly) that the air density is uniform? Physics 1B03summer-Lecture 12