For an effective migration velocity of 0.10 m/s, estimate the collection area [m2] for a flow...

A bicycle rider has a drag area of 0.22 m2. She is riding at a velocity...

A bicycle rider has a drag area of 0.22 m2. She is riding at a velocity of 8.3 m/s along the road and the air density is 1.2 kg/m3. Total mass of the rider and bike is 93 kg. The coefficient of rolling resistance is 0.004. She is riding into a headwind with velocity 1.8 m/s. The road is horizontal. What power (watts) must the cyclist produce to maintain the speed of 8.3 m/s?

4. An airplane has a wing area of 428 m2. In flight, the velocity of the...

4. An airplane has a wing area of 428 m2. In flight, the velocity of the air beneath the wing is 250 m/s and the velocity of air above the wing is 290 m/s. The density of air is 1.20 kg/m3. a) Determine the upward force on the WING (HINT: use the Bernoulli Equation) b) Determine the MASS of an airplane that this WING could support in the air c) Is this WING sufficient to support a Boeing 777 with...

A: An airplane has an effective wing surface area of 18 m2 that is generating the...

A: An airplane has an effective wing surface area of 18 m2 that is generating the lift force. In level flight the air speed over the top of the wings is 61.5 m/s, while the air speed beneath the wings is 58.5m/s. What is the weight of the plane? B: An antifreeze solution is made by mixing ethylene glycol (ρ = 1112 kg/m3) with water. Suppose that the specific gravity of such a solution is 1.1100. Assuming that the total...

What is the net upward force on an airplane wing of area 21.0 m2 if the...

What is the net upward force on an airplane wing of area 21.0 m2 if the speed of air flow is 200 m/s across the top of the wing and 175 m/s across the bottom? (The density of air where the airplane flies is ?air = 1.21 kg/m3.

Consider a healthy artery, with blood flow velocity of 0.14m/s and density of ρ=1050kg/m3. Suppose that...

Consider a healthy artery, with blood flow velocity of 0.14m/s and density of ρ=1050kg/m3. Suppose that plaque has narrowed an artery to one-fifth of its normal cross-sectional area (an 80% blockage). Treat the blood as a completely ideal fluid (no viscosity) A) What will be the velocity of the blood through the blockage? B) How much will the pressure in the blood change as it passes through the blockage?

A Francis turbine operates with the following data: Head: 100m; Flow rate 36 m3/s; Speed: 410rev/min;...

A Francis turbine operates with the following data: Head: 100m; Flow rate 36 m3/s; Speed: 410rev/min; Outer radius of runner 0.6m; Absolute flow angle: 72◦; Velocity: 36m/s;Exit swirl angle: 0◦ Calculate the effective runner width (i.e. ignoring blockage) and relative flow angle at inlet, the power output and efficiency. Answers: 0.859 m,37.3◦,31.8 MW,90.0%

John was swimming in the river. His swimming velocity was 0.7 m/s due east. The water...

John was swimming in the river. His swimming velocity was 0.7 m/s due east. The water was running at 0.1 m/s due west. John’s projected area in the water was 0.45 m2 . Water density was 1000 kg/m3 . The coefficient of drag was 0.2. (a) What was John’s velocity relative to the water? (b) What was the pressure drag force from the water? After a little while, John turned around and now is swimming at 0.7 m/s due west....

A fluid of viscosity 0,002 N-s /m2 and density 1000 kg/m3 flows with an average speed...

A fluid of viscosity 0,002 N-s /m2 and density 1000 kg/m3 flows with an average speed of 1 m/s in a 2 cm-diameter horizontal smooth pipe . Calculate a)magnitude of shearing stress at the pipe wall. b) shear stress velocity of flow c) magnitude of pressure gradient to induce flow

You toss a 0.90kg M-80 into the sky with a velocity 3.9m/s i^+ 9.8m/s j^ at...

You toss a 0.90kg M-80 into the sky with a velocity 3.9m/s i^+ 9.8m/s j^ at t= 0s . At t= 0.60s the M-80 explodes into two unequal chunks of m1= 0.3kg and m2= 0.6kg . Ignore any air resistance. What is the  x -component of the first chunk's velocity immediately after the explosion if the second chunk's velocity immediately after the explosion is −12m/s  i^+  33.8m/s  j^ ?

Steam enters a diffuser at 250°C and 300kPa with an inlet velocity of 402 m/s. Steam...

Steam enters a diffuser at 250°C and 300kPa with an inlet velocity of 402 m/s. Steam leaves the diffuser at 350°C and 600kPa. The heat gain in the diffuser is 80 kW. The inlet area of the diffuser is 820 cm2. Determine the velocity and the volume flow rate of the steam at the diffuser exit.