Find the drag force acting on a 0.5 m square flat plate when water flows over...

If water flows along both sides of a 5 m-long flat plate with a velocity of...

If water flows along both sides of a 5 m-long flat plate with a velocity of 60 m/s at 20oC, what will be the boundary layer thickness (cm) at a position 4 m from the leading edge? Indicate whether the boundary layer is laminar or turbulent. Calculate the total drag force (N or kg m/s2) on the plate if each surface of the plate is 550 m2.

Liquid water at velocity of 2 m/s and temperature of 15 °C flows over a flat...

Liquid water at velocity of 2 m/s and temperature of 15 °C flows over a flat plate. The plate has a width of 1 m, length of 0.4 m and surface temperature of 37 °C. Determine: (a) the average heat transfer coefficient. (b) the convection heat transfer rate from the top surfacc of the platc.

Air at free-stream velocity of 9 m/s flows over a thin flat plate of length 3...

Air at free-stream velocity of 9 m/s flows over a thin flat plate of length 3 m and width 1.5 m. A laminar boundary layer develops from the leading edge of the flat plate. At Rex = 500 000, the boundary layer becomes a turbulent boundary layer where x is the distance from the leading edge. ρair = 1.2 kg/m3 , μair = 1.8 x 10-5 kg/m.s (a) Estimate the length of the laminar boundary layer. (b) Estimate the drag...

. Air flows with Mach 2.8 over a flat plate that is set at an angle...

. Air flows with Mach 2.8 over a flat plate that is set at an angle of 7° to the upstream flow. The pressure in the upstream flow is 100 kPa. Find the lift and drag coefficients using linearized theory.

A square plate of 0.5 m length is heated to temperature of 383 K. Air at...

A square plate of 0.5 m length is heated to temperature of 383 K. Air at 293 K and 1 atm flows over the plate at 15 m/s. Calculate the total heat transferred. Determine the convection heat transfer coefficient, thermal boundary layer, and the velocity boundary layer at the trailing edge of the plate.

A plate is subjected to local pressure in open condition of 90 kPa. Air flows through...

A plate is subjected to local pressure in open condition of 90 kPa. Air flows through a plate at 6 m/s of velocity and temperature measured at 25oC with a 8m length X 2.5m wide section. Solve the problem if considering air flows parallel to side by side of flat plate by determine the drag force that overcome the plate on the top surface for i) 8 m long side ii) 2.5 m long side

L = 6 m long and w = 4 m wide, smooth, flat plate, upstream speed...

L = 6 m long and w = 4 m wide, smooth, flat plate, upstream speed It is placed in water where U = 0.5 m / s. Plate by accepting laminar boundary layer over: a) boundary layer thicknesses (separately at x = L / 2 and at the exit end of the plate). b) wall shear stresses (separately at x = L / 2 and at the outlet end of the plate). Calculate. For water: ? = 1000 ??...

Water at 60°F flows over the top surface of the plate. If the free-stream velocity is...

Water at 60°F flows over the top surface of the plate. If the free-stream velocity is 1.0 ft/s, determine the boundary layer disturbance thickness and momentum thickness at the back end of the plate

Liquid (A) flows down as a thin film over the outside surface of a vertical flat...

Liquid (A) flows down as a thin film over the outside surface of a vertical flat plate 1.5 m wide (W = 1.5 m) and 3.5 m long (L = 3.5). Inert gas (B) flows across (perpendicular to) the width of the flat plate at a speed of 5 m/s. The supply of (A) is 0.27 mol/s at one end of the plate and the flow is considered to be turbulent. The gas composition of (A) at the edge of...

An object on a spring is subject to a drag force that is linear with velocity....

An object on a spring is subject to a drag force that is linear with velocity. The mass is 0.5 kg, the drag force constant is 3 kg/s, and the spring constant is 2.5 N/m. a. Find the equation of motion x(t). b. Sketch a graph of x(t). c. Describe the motion in words.