=Problem 2. For a homogeneous, isentropic elastic solid, the bulk modulus, Ev p (dp/dp) = pc², can bewritten in terms of Young's modulus, E, and Poison's ratio, v, as follows: E₁ = E/[3(1 – 2v)]. Note that for asolid E₁, and E are the same for v = 1/3 and that for a fluid only Ę is defined. Look up Young's modulus,Poison's ratio, and density, for zinc and calculate the speed of sound for temperatures ranging from 0°C to90 °C. For the same temperature range, look up the speed of sound for water and air. Make a plot of the speedof sound versus temperature for all three materials.

Step 1: Step 2: Step 3: Step 4:

Answered: = Problem 2. For a homogeneous,…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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A silicon carbide ball with 5 mm in diameter has volume based CLTE (a,) of 8.1 x106/°C. If the ball is heated from 100 to 1750°F, calculate the increase in diameter. Convert first the temperature to °C. Note: (AV/V) = (V-V.)/Vo= av AT
A linear (laminar) averagewall shear stress resistance of the form τ ≈ 8 μ V/D , whereμ is the fl uid viscosity. Find the differential equation fordV / dt and then solve for V ( t ), assuming an initial displacementz = z 0 , V = 0 at t = 0. The result should be a dampedoscillation tending toward z = 0.
Find the capillary rise ( h) in the tube shown in the figure for a water-air-glass interface with e= 10° if the tube diameter (D) is 4 mm and the temperature is 20 °C. Take surface tension ( o )= 0.1 N/m.
4. At the sea level of the standard atmosphere, the conditions are To =288 K. Po =101.3 kPa, and it is said that the air temperature decreases by 6.5 K at 1 km rise. At a height z above sea level, the atmospheric pressure is said to be determined from P=Po (To-alpha z / To )^ g /aR, alpha = 6.5 * 10 ^-3 K / m and R = 287J/kg* K. Find the boiling temperature of the water at the top of Hallasan Mountain, about 2000 m above sea level.
XA P1= P2 R R Figure shows an example of a hydraulic accumulator, which is a device for reducing pressure fluctuations in a hydraulic line or pipe. The fluid density is p, the plate mass is negligible, and the plate area is A. All the given pressures are gauge pressures. Write down the equations of motion.
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3. The stress tensor of a fluid in motion is given by -P T1 T2 -P 0 T = T1 T2 0 -P] where P, ti and t2 are known. (a) Find an expression to calculate the force exerted by the fluid on surfaces with surface area A that are perpendicular to the unit vectors (a.1) n = ei √2 √2 (a.2) n = ²е₁ + ¹²е₂ (b) What are the normal stresses acting on the two surfaces specified above?
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