Homework Answers
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1. Consider...
please show all work, and state your assumptions. please don't forget this part thanks 2. Consider...
please show
all work, and state your assumptions. please don't forget this part
thanks
2. Consider the flow with the velocity field ū = (4x+2y)i + (2x-4y)ĵ. (a). Is this flow 1-, 2-, 3-dimensional? (2 points) (b). Is this flow steady or unsteady? Why? (2 points) (c). Is this flow compressible or incompressible? Why? (2 points) (d). Is this flow rotational or irrotational? Why? (2 points) (e). Find the equation for a streamline passing through the point (Xo, yo). (4...
please let other answer if you cant answer thanks please list assumptions, show work, and explain...
please let other answer if you cant answer thanks
please list assumptions, show work, and explain your reasoning carefully! please don't forget all this thanks 3. Consider incompressible, steady, inviscid flow at vertical velocity v though a porous surface into a row up of height, as shown. Assume that the flow is 2D planar, so neglect any variations or velocity components in the direction IV (a) Find the x-component of velocity, assuming uniform flow at every x location. points) Pind...
please list assumptions, show work, and explain your reasoning carefully! please don't forget all this thanks...
please list assumptions, show work, and
explain your reasoning carefully! please don't forget all this
thanks
1. A tank contains water (20°C) at the initial height ho, the area of the water surface is Ar, the water flow from the bottom at a speed of v(t), the exit area is Aex- (a) Find the function of height h(t). (10 points) At hit) (b) Estimate the time t when all the water runs out. (10 points)
please list assumptions, show work, and explain your reasoning carefully! please don't forget all this thanks...
please list assumptions, show work, and
explain your reasoning carefully! please don't forget all this
thanks
4. The aerodynamic behavior of a flying insect is to investigate in a water tunnel using a 10X scale model. The lift force F is believed to be a function of wing size L, flight speed u, flapping frequency w, fluid density P, and fluid viscosity u. Assume that air has a density 1/1000th and a dynamic viscosity 1/100th that of water. (a). List...
Don't forget these are both parts to the same question. Thanks (1) Consider the following gas-phase...
Don't forget these are both parts to the same question.
Thanks
(1) Consider the following gas-phase reaction: A+B C + 2D If 2.00 mol of A, 1.00 mol of B, and 3.00 mol of D are mixed and allowed to come to equilibrium at 25 °C, the resulting mixture contains 0.79 mol of C at a total pressure of 1.00 bar. Using this information, calculate ArGº (2) A vessel of volume 5.00 L is partitioned into two equal-sized compartments. On...
MIT Marine Hydrodynamics Spring 2005 Problem Set 5B Please solve these for me thanks ! :)...
MIT Marine Hydrodynamics Spring 2005 Problem Set 5B
Please solve these for me thanks ! :)
1. Supplementary Problem 12 2. A fluid jet issues from a long vertical slot and strikes against a vertical flat plate at an angle. The resulting two-dimensional steady flow in a horizontal plane is shown below. The plate is frictionless (a) If the volume flow rate of a vertical section of the jet before it strikes the plate is Q A, where A, is...
Please explain with all necessary equations and show your work. Thanks! 8. Show that Cp -...
Please explain with all necessary equations and show your
work. Thanks!
8. Show that Cp - Cy = nR for an ideal gas. Hint 1: Consider two pathways of taking the gas from T, to T(constant pressure and constant volume). How are the values of AU for the two pathways related? Hint 2: Use the ideal gas law to evaluate PAV.
Not sure what the professor is asking by stating to "CONSIDER FLOW TO BE IN THE...
Not sure what the professor is asking by stating to "CONSIDER
FLOW TO BE IN THE HORIZONTAL PLANE". The only thing I know is that
gravity can be neglected in the horizontal direction? Please help
with a detailed solution including formulas and assumptions used
(:
Below is the link to the textbook solution of the original
problem which can possibly provide help for formulas to use:
https://www.chegg.com/homework-help/Munson-Young-and-Okiishi-s-Fundamentals-of-Fluid-Mechanics-8th-edition-chapter-3-problem-12P-solution-9781119159599
Thank you!
H3.1 Do text problem 3.12 but consider the flow to be...
Please show all work for review! 5) Consider problem 4. Instead of an insulated left surface,...
Please show all work for review!
5) Consider problem 4. Instead of an insulated left surface, a known heat flux is imposed on it. Everything else remains the same. • Stating all the assumptions clearly, derive expression for temperature profile with the rod in the steady state. (25 points) • Bonus problem: If possible, draw temperature profile. (10 points) 9 gen air
Please show all of your work! Thanks in advance and have a good day! I will...
Please show all of your work! Thanks in advance and have a
good day!
I will be rating thumbs up for best answer !
4. Problem 4 (10 points). For the circuit shown in Fig. 2 what is the initial value and the steady state value of the voltage across the output? Assume the switch closes at t = 0·Explain your answer. R3 R1 R4 R2 Vout Vs 0 V E 1 mH GND
please show
all work, and state your assumptions. please don't forget this part
thanks
2. Consider the flow with the velocity field ū = (4x+2y)i + (2x-4y)ĵ. (a). Is this flow 1-, 2-, 3-dimensional? (2 points) (b). Is this flow steady or unsteady? Why? (2 points) (c). Is this flow compressible or incompressible? Why? (2 points) (d). Is this flow rotational or irrotational? Why? (2 points) (e). Find the equation for a streamline passing through the point (Xo, yo). (4...
please let other answer if you cant answer thanks
please list assumptions, show work, and explain your reasoning carefully! please don't forget all this thanks 3. Consider incompressible, steady, inviscid flow at vertical velocity v though a porous surface into a row up of height, as shown. Assume that the flow is 2D planar, so neglect any variations or velocity components in the direction IV (a) Find the x-component of velocity, assuming uniform flow at every x location. points) Pind...
please list assumptions, show work, and
explain your reasoning carefully! please don't forget all this
thanks
1. A tank contains water (20°C) at the initial height ho, the area of the water surface is Ar, the water flow from the bottom at a speed of v(t), the exit area is Aex- (a) Find the function of height h(t). (10 points) At hit) (b) Estimate the time t when all the water runs out. (10 points)
please list assumptions, show work, and
explain your reasoning carefully! please don't forget all this
thanks
4. The aerodynamic behavior of a flying insect is to investigate in a water tunnel using a 10X scale model. The lift force F is believed to be a function of wing size L, flight speed u, flapping frequency w, fluid density P, and fluid viscosity u. Assume that air has a density 1/1000th and a dynamic viscosity 1/100th that of water. (a). List...
Don't forget these are both parts to the same question.
Thanks
(1) Consider the following gas-phase reaction: A+B C + 2D If 2.00 mol of A, 1.00 mol of B, and 3.00 mol of D are mixed and allowed to come to equilibrium at 25 °C, the resulting mixture contains 0.79 mol of C at a total pressure of 1.00 bar. Using this information, calculate ArGº (2) A vessel of volume 5.00 L is partitioned into two equal-sized compartments. On...
MIT Marine Hydrodynamics Spring 2005 Problem Set 5B
Please solve these for me thanks ! :)
1. Supplementary Problem 12 2. A fluid jet issues from a long vertical slot and strikes against a vertical flat plate at an angle. The resulting two-dimensional steady flow in a horizontal plane is shown below. The plate is frictionless (a) If the volume flow rate of a vertical section of the jet before it strikes the plate is Q A, where A, is...
Please explain with all necessary equations and show your
work. Thanks!
8. Show that Cp - Cy = nR for an ideal gas. Hint 1: Consider two pathways of taking the gas from T, to T(constant pressure and constant volume). How are the values of AU for the two pathways related? Hint 2: Use the ideal gas law to evaluate PAV.
Not sure what the professor is asking by stating to "CONSIDER
FLOW TO BE IN THE HORIZONTAL PLANE". The only thing I know is that
gravity can be neglected in the horizontal direction? Please help
with a detailed solution including formulas and assumptions used
(:
Below is the link to the textbook solution of the original
problem which can possibly provide help for formulas to use:
https://www.chegg.com/homework-help/Munson-Young-and-Okiishi-s-Fundamentals-of-Fluid-Mechanics-8th-edition-chapter-3-problem-12P-solution-9781119159599
Thank you!
H3.1 Do text problem 3.12 but consider the flow to be...
Please show all work for review!
5) Consider problem 4. Instead of an insulated left surface, a known heat flux is imposed on it. Everything else remains the same. • Stating all the assumptions clearly, derive expression for temperature profile with the rod in the steady state. (25 points) • Bonus problem: If possible, draw temperature profile. (10 points) 9 gen air
Please show all of your work! Thanks in advance and have a
good day!
I will be rating thumbs up for best answer !
4. Problem 4 (10 points). For the circuit shown in Fig. 2 what is the initial value and the steady state value of the voltage across the output? Assume the switch closes at t = 0·Explain your answer. R3 R1 R4 R2 Vout Vs 0 V E 1 mH GND
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