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Physics 1210/1310 Mechanics&Thermodynamics Lecture 30-42, chapter 12/11/14 Gravity, Elasticity, Fluid Dynamics.

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Presentation on theme: "Physics 1210/1310 Mechanics&Thermodynamics Lecture 30-42, chapter 12/11/14 Gravity, Elasticity, Fluid Dynamics."— Presentation transcript:

1 Physics 1210/1310 Mechanics&Thermodynamics Lecture 30-42, chapter 12/11/14 Gravity, Elasticity, Fluid Dynamics

2 All Mechanics culminates in the Law of Gravitation:

3 Gravitational effect OUTSIDE any spherically symmetric mass is same AS IF all mass at center !

4 Value of the Gravitational constant G: 6.673(10) 10 -11 Nm 2 /kg 2 Weight:

5 Superposition of F g – more than two bodies Consider a ternary star system:

6

7 Five planets with homogeneous mass distribution have relative masses and sizes as shown in the figure. Rank the weight of a body of mass m on the surfaces of the five planets from smallest to highest. Group Task

8 Motion of Satellites: escape velocity, circular orbits http://www.phy.ntnu.edu.tw/nt nujava/index.php?topic=398

9 Position a 1,000 [kg] satellite into a circular orbit at 300 [km] above the earth’s surface. a)What speed, period, a rad must it have? b) How much work must be done to bring it Into orbit?

10 Kepler’s Laws 1.Planets follow elliptical orbits 2. Equal areas in equal times 3. Periods ~ a 3/2 http://astro.unl.edu/classaction/animations/renaissance/kepler.html http://www.walter-fendt.de/ph14e/keplerlaw2.htm

11 Spherical Mass Distributions: Uniform mass density throughout sphere, then M/m E = (4  /3 r 3 ) / ( 4  /3 R E 3 ) = r 3 /R E 3 This modifies the magnitude of F G inside the Earth: iow at any point inside the earth, F G ~ r (distance from earth center) as opposed to 1/r 2 behavior ‘outside’

12 Apparent Weight: and other corrections to g: Influence of earth rotation on effective weight. g = g 0 – v 2 /R E g fa = g obs - g n + 0.3086h (mGal)

13 Non-rigid objects: Deformable Media Stress, Strain, and Elastic Moduli Non-rigid objects: Deformable Media Stress, Strain, and Elastic Moduli

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15

16 http://www.eecs.berkeley.edu/ ~flab/elas/elasticity.html

17 Fluid Mechanics - What if we don’t deal with solids?  The concept of density

18 ‘Pressure’ in a Fluid: Units pressure: [Pa] = [N/m 2 ]

19 Pressure in a fluid depends on depth, g, and  :

20 Pascal’s Law: hydraulics Pressure on an enclosed fluid is transmitted equally to every part of the fluid as well as to the vessel walls. p = F 1 /A 1 = F 2 /A 2  F 2 = A 2 /A 1 F 1

21 Buoyancy – a new aspect of mechanic forces Archimedes Principle: A body immersed in a fluid exerts an upward force on the body equal to the weight of the displaced fluid.

22 Surface Tension

23 Simple Fluid Flow – Continuity Eqn and Bernoulli Eqn The mass of a moving fluid does not change. This leads to the Continuity Equation:

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