Explanation Write the expression for the Bernoulli equation. P 1 ρ g + V 1 2 2 g + Z 1 = P 2 ρ g + V 2 2 2 g + Z 2 ...... (I) Here, the pressure at section 1 is P 1 , the pressure at section 2 is P 2 , the velocity at section 1 is V 1 , the velocity at section 2 is V 2 , the elevation at section 1 is Z 1 , the elevation at section 2 is Z 2 , the density is ρ and the acceleration due to gravity is g . Write the expression for the mass flow rate. m ˙ = ρ A V 2 ...... (II) The density of fluid is ρ , the velocity at outlet is V 2 and the area is A . Write the expression for the area. A = π 4 D 0 2 ...... (III) Here, the diameter of pipe is D 0 . Write the expression for the force. F = m ˙ V 2 ...... (IV) Here the mass flow rate is m ¨ Write the expression for the acceleration. a = F m ...... (V) Here, the mass is m and the force is F . Substitute 0 for P 1 , 0 for P 2 , 0 for V 1 , 0 for Z 2 in Equation (I). 0 + 0 + Z 1 = 0 + V 2 2 2 g + 0 Z 1 = V 2 2 2 g V 2 = 2 g Z 1 Substitute π 4 D 0 2 for A and 2 g Z 1 for V 2 in Equation (II) To determine (b) The relation for velocity. To determine (c) The relation for the distance travelled.

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ISBN: 9781266016042

Author: CENGEL

Publisher: MCG CUSTOM

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Chapter 6, Problem 91P

To determine

(a)

The relation for acceleration.

To determine

(b)

The relation for velocity.

To determine

(c)

The relation for the distance travelled.

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Chapter 6, Problem 89P

Chapter 6, Problem 92P

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USE MATLAB ONLY Turbomachienery . GIven: vx = 185 m/s, flow angle = 60 degrees, R = 0.5, U = 150 m/s, b2 = -a3, a2 = -b3 Find: velocity triangle , a. magnitude of abs vel leaving rotor (m/s) b. flow absolute angles (a1, a2, a3) 3. flow rel angles (b2, b3) d. specific work done e. use code to draw vel. diagram Use this code for plot % plots Velocity Tri. in Ch4 function plotveltri(al1,al2,al3,b2,b3) S1L = [0 1]; V1x = [0 0]; V1s = [0 1*tand(al3)]; S2L = [2 3]; V2x = [0 0]; V2s = [0 1*tand(al2)]; W2s = [0 1*tand(b2)]; U2x = [3 3]; U2y = [1*tand(b2) 1*tand(al2)]; S3L = [4 5]; V3x = [0 0]; V3r = [0 1*tand(al3)]; W3r = [0 1*tand(b3)]; U3x = [5 5]; U3y = [1*tand(b3) 1*tand(al3)]; plot(S1L,V1x,'k',S1L,V1s,'r',... S2L,V2x,'k',S2L,V2s,'r',S2L,W2s,'b',U2x,U2y,'g',... S3L,V3x,'k',S3L,V3r,'r',S3L,W3r,'b',U3x,U3y,'g',...... 'LineWidth',2,'MarkerSize',10),... axis([-1 6 -4 4]), ... title('Velocity Triangle'), ... xlabel('x'),yl

The wall of a furnace has a thickness of 5 cm and thermal conductivity of 0.7 W/m-°C. The inside surface is heated by convection with a hot gas at 402°C and a heat transfer coefficient of 37 W/m²-°C. The outside surface has an emissivity of 0.8 and is exposed to air at 27°C with a heat transfer coefficient of 20 W/m²-ºC. Assume that the furnace is inside a large room with walls, floor and ceiling at 27°C. Show the thermal circuit and determine the heat flux through the furnace wall. h₁ T₁ k -L T. sur ho E

Turbomachienery . GIven: vx = 185 m/s, flow angle = 60 degrees, R = 0.5, U = 150 m/s, b2 = -a3, a2 = -b3 Find: velocity triangle , a. magnitude of abs vel leaving rotor (m/s) b. flow absolute angles (a1, a2, a3) 3. flow rel angles (b2, b3) d. specific work done e. use code to draw vel. diagram Use this code for plot % plots Velocity Tri. in Ch4 function plotveltri(al1,al2,al3,b2,b3) S1L = [0 1]; V1x = [0 0]; V1s = [0 1*tand(al3)]; S2L = [2 3]; V2x = [0 0]; V2s = [0 1*tand(al2)]; W2s = [0 1*tand(b2)]; U2x = [3 3]; U2y = [1*tand(b2) 1*tand(al2)]; S3L = [4 5]; V3x = [0 0]; V3r = [0 1*tand(al3)]; W3r = [0 1*tand(b3)]; U3x = [5 5]; U3y = [1*tand(b3) 1*tand(al3)]; plot(S1L,V1x,'k',S1L,V1s,'r',... S2L,V2x,'k',S2L,V2s,'r',S2L,W2s,'b',U2x,U2y,'g',... S3L,V3x,'k',S3L,V3r,'r',S3L,W3r,'b',U3x,U3y,'g',...... 'LineWidth',2,'MarkerSize',10),... axis([-1 6 -4 4]), ... title('Velocity Triangle'), ... xlabel('x'),ylabel('y'), grid

Chapter 6 Solutions

FLUID MECHANICS FUND. (LL)-W/ACCESS

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