A thin flat plate of length
A thin flat plate of length
Homework Answers
A thin flat plate of length L, thickness t, and width W> L is thermally joined...
A thin flat plate of length L, thickness t, and width W> L is thermally joined to two large heat sinks that are maintained at a temperature T.. The bottom of the plate is well insulated, while the net heat flux to the top surface of the plate is known to have a uniform value of Heat sink T. Heat sink T. a) Derive the differential equation that determines the steady-state temperature distribution T(x) in the plate. b) Solve the...
A thin flat plate is placed in between two parallel plates (top and bottom) as shown...
A thin flat plate is placed in between two parallel plates (top and bottom) as shown in Figure Q1. The distance separating this thin flat plate with both parallel plates is h. Apart from having a stationary top plate, the thin flat plate is moving at the speed of U and the bottom plate is moving to the left at a velocity of 0.2U. The fluid in the upper flow region (above the thin flat plate) and in the lower...
Need help with part B (the sketching!) thanks Problem 3: A thin flat plate of length...
Need help with part B (the sketching!) thanks
Problem 3: A thin flat plate of length L-120 mm, thickness t=4 mm, width W=30 mm, and thermal conductivity k=20 W/m-K is thermally joined to heat sinks at different temperatures, where T(x = 0) = To-100 C and T(x = L) = T,-35°C. The top surface of the plate is subjected to uniform heat flux q"-20 kW/m2, and the bottom surface of the plate is subjected to uniform convection with a convection...
list the assumptions (if appropriate), provide a sketch (if appropriate) A thin flat plate of length L-120 mm, thicknes...
list the assumptions (if appropriate), provide a sketch
(if appropriate)
A thin flat plate of length L-120 mm, thickness t=4 mm, width W=30 mm, and thermal conductivity k-20 W/m-K is thermally joined to heat sinks at different temperatures, where T(x 0) = To-100°C and T(x = L) Ti-35°C. The top surface of the plate is subjected to uniform heat flux q"-20 kW/m2, and the bottom surface of the plate is subjected to uniform convection with a convection coefficient of h-50...
Air at 70℉ flows parallel to a smooth, thin, flat plate at 13 ns. The plate...
Air at 70℉ flows parallel to a smooth, thin, flat plate at 13 ns. The plate is 10 6 ft long Determine whether the boundary layer on the plate is most likely laminar, turbulent, or somewhere in between (transitional). Calculate the boundary layer thickness at the end of the plate where the boundary layer is laminar everywhere and where the boundary layer is turbulent everywhere (obtained from the one seventh-power law), The kinematic viscosity of air at 70°F is v...
Lu LLLLLLLLLLLL FLUID-A cs = ( h Vo Tl (6=1.5€ FLUID-B A thin flat plate is...
Lu LLLLLLLLLLLL FLUID-A cs = ( h Vo Tl (6=1.5€ FLUID-B A thin flat plate is moving with a constant horizontal velocity of Vo through a narrow channel with a height of "h" as shown in the figure. The upper side of the plate is filled with fluid A while the lower side is filled with fluid B. If both fluids are Newtonian and the viscosity of fluid A and B are given as uA = u and MB =...
Consider 2 thin, flat plates (Plate 1 and Plate 2 shown below) with air flowing over...
Consider 2 thin, flat plates (Plate 1 and Plate 2 shown below) with air flowing over them with a speed of 6 m/s. Plate 1 is 10 cm by 20 cm and Plate 2 is 30 cm by 20 cm. What is the ratio of the drag coefficient of Plate 2 to the drag coefficient of Plate 1 (Coz/Cp)? Take the critical Reynolds number for transition from laminar to turbulent flow to be 1,000,000. The kinematic viscosity of air (v...
A thin flat plate 55 by 110 cm is immersed in a 6-m/s stream of SAE...
A thin flat plate 55 by 110 cm is immersed in a 6-m/s stream of SAE 10 oil at 20 °C Compute the total friction drag if the stream is parallel to (a) the long side and (b) the short side. Comment on why you think this is the case.
Aluminium plate painted flat black (solar absorptivity 0.98 and emissivity 0.97) Length of absorber plate is...
Aluminium plate painted flat black (solar absorptivity 0.98 and emissivity 0.97) Length of absorber plate is 1.2 m, width of absorber plate w = 0.8 m, Ambient air temperature = 25°C, effective sky temperature = 10°C, solar radiation rate = 600 w/m2. Calculate the temperature of the absorber plate?
b) A flat thin isotropic rectangular plate of thickness (h) and material properties (E.v) is shown...
b) A flat thin isotropic rectangular plate of thickness (h) and material properties (E.v) is shown in the Figure below. The plate has two opposite edges along x-axis which are fixed; while the other two opposite edges along y-axis are hinged. A uniformly distributed load 9 =9, applied. Derive an expression of deflection w(x,y) using Levy's solution. b/2 b/2 earch
A thin flat plate of length L, thickness t, and width W> L is thermally joined to two large heat sinks that are maintained at a temperature T.. The bottom of the plate is well insulated, while the net heat flux to the top surface of the plate is known to have a uniform value of Heat sink T. Heat sink T. a) Derive the differential equation that determines the steady-state temperature distribution T(x) in the plate. b) Solve the...
A thin flat plate is placed in between two parallel plates (top and bottom) as shown in Figure Q1. The distance separating this thin flat plate with both parallel plates is h. Apart from having a stationary top plate, the thin flat plate is moving at the speed of U and the bottom plate is moving to the left at a velocity of 0.2U. The fluid in the upper flow region (above the thin flat plate) and in the lower...
Need help with part B (the sketching!) thanks
Problem 3: A thin flat plate of length L-120 mm, thickness t=4 mm, width W=30 mm, and thermal conductivity k=20 W/m-K is thermally joined to heat sinks at different temperatures, where T(x = 0) = To-100 C and T(x = L) = T,-35°C. The top surface of the plate is subjected to uniform heat flux q"-20 kW/m2, and the bottom surface of the plate is subjected to uniform convection with a convection...
list the assumptions (if appropriate), provide a sketch
(if appropriate)
A thin flat plate of length L-120 mm, thickness t=4 mm, width W=30 mm, and thermal conductivity k-20 W/m-K is thermally joined to heat sinks at different temperatures, where T(x 0) = To-100°C and T(x = L) Ti-35°C. The top surface of the plate is subjected to uniform heat flux q"-20 kW/m2, and the bottom surface of the plate is subjected to uniform convection with a convection coefficient of h-50...
Air at 70℉ flows parallel to a smooth, thin, flat plate at 13 ns. The plate is 10 6 ft long Determine whether the boundary layer on the plate is most likely laminar, turbulent, or somewhere in between (transitional). Calculate the boundary layer thickness at the end of the plate where the boundary layer is laminar everywhere and where the boundary layer is turbulent everywhere (obtained from the one seventh-power law), The kinematic viscosity of air at 70°F is v...
Lu LLLLLLLLLLLL FLUID-A cs = ( h Vo Tl (6=1.5€ FLUID-B A thin flat plate is moving with a constant horizontal velocity of Vo through a narrow channel with a height of "h" as shown in the figure. The upper side of the plate is filled with fluid A while the lower side is filled with fluid B. If both fluids are Newtonian and the viscosity of fluid A and B are given as uA = u and MB =...
Consider 2 thin, flat plates (Plate 1 and Plate 2 shown below) with air flowing over them with a speed of 6 m/s. Plate 1 is 10 cm by 20 cm and Plate 2 is 30 cm by 20 cm. What is the ratio of the drag coefficient of Plate 2 to the drag coefficient of Plate 1 (Coz/Cp)? Take the critical Reynolds number for transition from laminar to turbulent flow to be 1,000,000. The kinematic viscosity of air (v...
A thin flat plate 55 by 110 cm is immersed in a 6-m/s stream of SAE 10 oil at 20 °C Compute the total friction drag if the stream is parallel to (a) the long side and (b) the short side. Comment on why you think this is the case.
b) A flat thin isotropic rectangular plate of thickness (h) and material properties (E.v) is shown in the Figure below. The plate has two opposite edges along x-axis which are fixed; while the other two opposite edges along y-axis are hinged. A uniformly distributed load 9 =9, applied. Derive an expression of deflection w(x,y) using Levy's solution. b/2 b/2 earch
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