The converging nozzle has an exit diameter of 0.25 mm. The fuel-oxidizer mixture within the large tank has an absolute pressure of 4 MPaMPa and temperature of 1500 KK . The mixture has k� = 1.38 and R� = 296 J/[kg⋅K]J/[kg⋅K] . Determine the mass flow from the nozzle when the backpressure is a vacuum. Express your answer using three significant figures

The converging nozzle has an exit diameter of 0.25 mm. The fuel-oxidizer mixture within the large tank has an absolute pressure of 4 MPaMPa and temperature of 1500 KK . The mixture has k� = 1.38 and R� = 296 J/[kg⋅K]J/[kg⋅K] . Determine the mass flow from the nozzle when the backpressure is a vacuum. Express your answer using three significant figures

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: Nitrogen having a temperature of T₁ = 270 K. and absolute pressure of p₁ = 330 kPa flows into the…

A: Inlet Temperature Inlet pressure Inlet Mach number length of the pipe heat given J/kg.KThe…

Q: A cryogenic vacuum pump works by condensing vapors onto some absorbent medium. This is an efficient…

A: To find: The temperature difference in Fahrenheit. Given: The temperature difference is ∆T=315°C.

Q: A converging nozzle having an exit diameter of 30 mm is connected to the large tank (Figure 1). The…

Q: Outside air at a temperature of 25°C is drawn into the duct and then heated along the duct at 167…

A: Given Data:Outside air temperature = At section 1:Heat transfer rate = To Find:(b) Temperature at…

Q: The jet plane is flying upward such that its wings make an angle of attack of 15⁰ with the…

Q: A person is donating blood. The 0.36 L bag in which the blood is collected is initially flat and is…

A: Given: The volume of the blood bag, V = 0.36 L = 0.00036 m^3 The diameter of the tube, d2 = 2.8 mm =…

Q: What is the expression used to determine the change in the enthalpy of an ideal gas? Multiple Choice…

A: Asked to find the change in enthalpy equation for Ideal gas

Q: The air in the reservoir has an absolute pressure of 550 kPa and a temperature of 30°C. The throat…

Q: Air at a temperature of 40° C flows through the duct at A with a velocity of 1.9 m/s. Pair = 1.127…

A: Given Data Inlet temperature at A: T=40∘C Inlet velocity at A: vA=1.9m/sDensity of air:…

Q: The height of a fluid inside a leaky storage tank is given by: h (t) =(√ho - 0.6√/2g+/+t)² • ho is…

Q: Air at a temperature of 20°C and standard atmospheric pressure of 102 kPa flows through the nozzle…

A: To find:The mass flow in the pipe

Q: Gasoline is mixed with 8 ft3 of kerosene so that the volume of the mixture in the tank becomes 12…

Q: Air at a temperature of 20°C and standard atmospheric pressure of 102 kPa flows through the nozzle…

A: Temperature = 20°C Atmospheric pressure= 102kPa Pressure in pipe = 60kPa Diameter = 16mm Find the…

Q: Part A Nitrogen having a temperature of T = 310 K. and absolute pressure of pi = 320 kPa flows into…

Q: 12. A mixture of oil and gas flows through a horizontal pipe with an inside diameter of 150 mm. The…

A: We have mixture of oil and gas.Let assume that we have gas in x fraction of area.then (1-x) fraction…

Q: A converging nozzle having an exit diameter of 30 mm is connected to the large tank (Figure 1). The…

Q: The converging nozzle has an exit diameter of 0.25 m. The fuel-oxidizer mixture within the large…

Q: Nitrogen having a temperature of T₁=270 K. and absolute pressure of p₁ = 330 kPa flows into the…

Q: Nitrogen having a temperature of T₁ = 290 K. and absolute pressure of p₁ = 330 kPa flows into the…

A: Introduction Using the Mach number, we will compute the pressure and velocity of nitrogen at exit…

Q: The air in the reservoir has an absolute pressure of 500 kPa and a temperature of 30° C. The throat…

A: Introduction The nozzle allows very powerful air to exit the engine. It is well-known for its…

Q: Problem 4 - The tank contains helium at a temperature of 80°C and absolute pressure of 175 kPa. If…

Q: We have two connected tanks with surface areas A1 and A2, both open to the atmosphere, filled with…

A: h1=Height between point 1 to the bottom in left tankd=Height between point 2 to the bottom in right…

Q: Consider water which has a pressure of 200 kPa, and a temperature of 250°C. Determine its specific…

A: Givenwater P=200kPaT=250oC

Q: Nitrogen having a temperature of T₁ = 270 K. and absolute pressure of p₁ = 330 kPa flows into the…

A: Introduction Using the Mach number, we will compute the pressure and velocity of nitrogen at exit…

Question

Determine the mass flow from the nozzle when the backpressure is a vacuum.

Express your answer using three significant figures.

The converging nozzle has an exit diameter of 0.25 m. The
fuel-oxidizer mixture within the large tank has an absolute
pressure of 4 MPa and temperature of 1500 K. The
mixture has k = 1.38 and R = 296 J/kg-K]. (Figure 1)
Figure
1 of 1
Part A
Determine the mass flow from the nozzle when the backpressure is a vacuum.
Express your answer using three significant figures.
15. ΑΣΦ | 41
vec
Submit
Provide Feedback
Request Answer
Hey
?
kg/s
Next >

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: given

VIEW

Step 2: solution step2

VIEW

Step 3: solution step 3

VIEW

Solution

VIEW

Step by step

Solved in 4 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

A converging nozzle having an exit diameter of 30 mmmm is connected to the large tank (Figure 1). The absolute pressure outside the tank is 102 kPakPa. If the temperature of the air in the tank is 20∘C∘C and the absolute pressure is 480 kPakPa, determine the mass flow from the tank. Express your answer using three significant figures.
The large tank contains air at an absolute pressure of 700 kPa and temperature of 400 K. The converging nozzle between the tank and the pipe has an exit diameter of 40 mm and the absolute pressure in the pipe is 150 kPa. For air R = 286.9 J/[kg · K] and k = 1.40. (Figure 1) Determine the mass flow from the tank the pipe. Express your answer using three significant figures. m = kg/s
could you plz take a photo of the solution, the solution above isn't clear, the words are all put together so i can't quite get it.
Air at a temperature of 20°C and standard atmospheric pressure of 102 kPa flows through the nozzle into the pipe where the absolute internal pressure is 60 kPa. The nozzle has a throat diameter of d = 11 mm. (Figure 1) Figure 1 of 1 Part A Determine the mass flow into the pipe. Express your answer using three significant figures. ΤΙ ΑΣΦ ↓↑ vec m = Submit Provide Feedback Request Answer ? g/s
please answer question ASAP
The large tank contains air at an absolute pressure of 80 psi and temperature of 70°F. The nozzle has a throat diameter of 1 in. and an exit diameter of 1.75 in. (Figure 1) Part A T = °R. Part B Determine the absolute pressure within the connected pipe so that the nozzle chokes, but also maintains isentropic subsonic flow within the divergent section of the nozzle. Express your answer using three significant figures. p = psi Part C Determine the mass flow into the tank if the absolute pressure within the pipe is 30 psi. Express your answer using three significant figures. m = slug/s
Problem 2 - Determine the greatest possible mass flow through the nozzle if the throat has a diameter of 50 mm. The air in the reservoir has an absolute pressure of 400 kPa and a temperature of 30°C. I mm