Air at 110 kPa and 136°C enters an adiabatic diffuser steadily at a rate of 7200 kg/h and leaves at 140 kPa. The velocity of the airstream is decreased from 250 to 40 m/s as it passes through the diffuser. Calculate the following through step-by-step calculations. (a) The exit temperature of the air (b) The exit area of the diffuser

Air at 110 kPa and 136°C enters an adiabatic diffuser steadily at a rate of 7200 kg/h and leaves at 140 kPa. The velocity of the airstream is decreased from 250 to 40 m/s as it passes through the diffuser. Calculate the following through step-by-step calculations. (a) The exit temperature of the air (b) The exit area of the diffuser

Related questions

Q: 3.43 velermine the magnitude, direction, and sense of the resultant of the forces shown. Determine…

A: given

Q: What is the total kinetic energy of a 0.15 kg hockey puck sliding at 0.5 m/s and rotating about its…

A: Given: In this question, the given values are, m=0.15 kg v=0.5 m/s d=0.076 m R=0.038 m ω=8.4 rad/s…

Q: If two pieces of polarizing material are crossed, this means: (Select ALL correct answers) The angle…

Q: and the other with q). 1 for the hemisphere by a constant, so we do not ne

Q: I. The below image represents a conducting wire, with a circular loop of radius 20 cm. The resistor…

Q: 5. Suppose Mr. Lanier puts a 0.60-kg rock into a sling of length 1.5 m and begins whirling the rock…

Q: 2.15(a) Compute the rectangular components parallel and perpendicular to the inclined planes shown.…

A: The angle of inclination of the inclined plane with the horizontal is θ=30°. The vertical force…

Q: Problem 5 Show that, not matter what A and B are, À- (1 x B) = 0.

A: Write the equation for the scalar product of two vectors A→ and B→. A→×B→=ABcosθ Here, The angle θ…

Q: What size square footing (dimension in constructible feet and inches) would be required if P = 420 k…

A: Given data: Load P=420 k. Allowable capacity qallowable=2850 lb/ft2.

Q: You drop a stone down a well that is 7.65m deep. How long is it before you hear the splash? The…

Q: A sinusoidal transverse wave is traveling along a string in the negative direction of an x axis. The…

A: Since you have asked more than three sub-parts of a question, according to our guidelines we'll only…

Q: O Gc and K1c have different units and are related to each other by the tensile modulus. The relative…

A: The question contains 6 statements related to the "Introduction to Fracture Mechanics" where we need…

Q: Mod 6- Question 6 The diagram shows an ideal transformer. Iron core G When the switch is closed, the…

A: The problem is based on the basic concepts of physics. The first problem is based on the…

Q: rge is half the final value. The c #.6 μF AUF

A: Given: Resistance is 720 Ohm Time is 10 ms t=10 ms=10×10-3st=0.01 s

Q: The 50 MWe Andasol solar thermal power plant in Spain uses two tanks of molten salt (specific heat…

A: Variables known, Specific heat of molten salt is 1.47×103 J/Kg°C, Mass of the molten salt is…

Q: Moses wanders through the wilderness, starting at the position 10 m [E]. (1) On the v-t graph,…

Q: A spherical rain drop carries a charge of 2.70E-8 C and has a potential of 5.76E+4V at the surface.…

A: Given: In this question, the given details are, A spherical rain drop carries a charge of 2.7×10-8 C…

Q: 2.23 The crane wheel applies a 14,000-lb force to the rain as shown. Find the vertical and…

A: Given: Force applied, F=14000 lb

Q: What was the distance van Niekerk traveled?

A: Answers are in next step. Numerucal Values are in boxes.

Q: (d) Find the time (in s) required for the coin to reach the ground level. (Round your answer to…

Q: Mk=0.7. 10 kg TIR A 10-kg box is at sliding to the right on the floor. A rope is attached to the box…

A: mass of box = m = 10 kg co efficient of friction = 0.7 acceleration = a = 6 m/s2

Q: Question 3 When two or more capacitors are connected in series to a battery, the total voltage…

Question

Please please explain both questions

Thanks

Air at 110 kPa and 136°C enters an adiabatic diffuser steadily at a rate of 7200 kg/h and
leaves at 140 kPa. The velocity of the airstream is decreased from 250 to 40 m/s as it
passes through the diffuser. Calculate the following through step-by-step calculations.
(a) The exit temperature of the air
(b) The exit area of the diffuser

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Step by step

Solved in 3 steps

SEE SOLUTION Check out a sample Q&A here