Classify the flow around the capsule at sea level and in low earth orbit as con- tinuum, transitional or free molecular based on the Knudsen number. Explain in words why this classification is important to understanding the fluid dynamics.

Classify the flow around the capsule at sea level and in low earth orbit as con- tinuum, transitional or free molecular based on the Knudsen number. Explain in words why this classification is important to understanding the fluid dynamics.

Related questions

Q: Which of the vectors correctly shows the polarization force on a neutral piece of metal due to the…

A: The charged particles can be negative or positive.Given:The four vectors in four directions.The…

Q: 10 V 2F+ 13 4F ΣΕ 12 il ΣΙΩ Μ 10 Α ?Which is false + 2kΩ v1 12 800 i2= 0 Ο v1=0 Ο i1=0 4Η None O ο ο…

A: Given a circuit having capacitors , inductors and resistors.Evaluate the incorrect option from the…

Q: For the flint glass blade with a refractive index of 1.7, we coat MgF₂ with a refractive index of…

Q: + 1,5 m/s B = 0,25 m s² and in the following interval: =4s t² Find the average velocity and average

A: Displacement equation is given And value of constant is given

Q: Exercise 14 page 716 Two charged particles, Q1 =5 nC and Q = -3 nC, are separated by 35 cm. (a)What…

A: Solution Given dataCharge Q1=5nC=5×10−9CCharge Q2=−3nC=−3×10−9CSeparated by distance…

Q: Magnets must be dipoles, meaning they always must have a North and South Pole. True O False

A: The magnetic feild lines forms closed loop. The magnitude of this field is generally small compared…

Q: two canisters A and B each contain 0.20 mol of a gas at 400k and a pressure of 405300 Pa. A expands…

A: NOTE: your question is not clearly visible so I am assuming that the final pressure will be 303975…

Q: A copper block is suspended from a wire, as in part 1 of the drawing. A container of mercury is then…

Q: •) Por a silicon doped with Np = 3x10¹6 cm-3 Na = 3x10 16 cm 3, at room room temperature a) what are…

A: Number of holes doped in siliconMeans p= 3×10^16/Cm^3 and number of donor n= 3×10^16/cm^3

Q: Problem 3: Suppose a woman does 450 J of work and 9450 J of heat is transferred from her into the…

A: Given,The work done, The heat transferred, According to the first law of thermodynamics,

Q: A 33.1-kg child is on a swing attached to ropes that are L = 1.35 m long. Take the zero of the…

A: The mass of the child(m)The length of the rope is(L)

Q: (If relevant) A clearly labeled diagram (or diagrams) clearly pertaining to your analysis with a…

A: Required:Maximum and minimum stress and strain during orbit.

Q: 5 The graph shows the variation with time of kinetic energy of a particle that is undergoing simple…

A: NOTE: You have not provided enough information. So I am assuming the amplitude to be 1 meter.At…

Q: The pressure variation in a sound wave is given by AP = 0.0070 sin( 0.43 Tæ– 1410 đt), where AP is…

A: The pressure variation in a sound wave is given by ∆P = 0.0070sin(0.43πx - 1410πt) Evaluate the…

Q: Write down the equations relating the components of the velocity of an object in two different…

A: Any motion relative motion ifearth is assumed to be at earth is rest the observer is moving w.r.t.…

Q: Figure A +-+ ++ + + + + + + 1 of 1 + -+- + -+-- + -+-+- B ▼ Part C How does end A of the rod react…

A: Let the ball is near the end B then how does the end B of the rod react. (See in given figure)

Q: An electron moves in a straight line at speed 250 m/s along the positive y-axis through uniform…

Q: (1) A typical bacterium has a mass of 1 picogram (1 × 10-¹2 gram). Calculate the mass of a mole (or…

A: Mass of bacterium m= 10^-12gm.

Q: State the value of the Ricci tensor R on the event horizon of a Schwarzschild black hole, and…

A: Required: The value of the Ricci tensor on the event horizon of a Schwarzschild black hole.

Q: Determine the displacement amplitude of the wave. Express your answer using two significant figures.…

Q: Problem 2 Calculate any of the eigenvalues of the inertia matrix for a spherical shell of inner…

A: Required to find the eigenvalues of the inertia matrix.

Q: 1. Consider in L-R-C series circuit with L=1/2 henry, R=10 ohms, and C=0.01 Farad and an electric…

Q: Consider the image provided -- note that only one pole is known, and is identified as a north pole.…

A: Opposite poles attract each other. So when two magnets with opposite poles facing each other (e.g.…

Q: Two concentric loops are shown in the figure below. If the current in the big loop is constant, the…

A: According to the Faraday's laws of electromagnetics eqation the change in current in circuit…

Q: Exergy is: Select one: O a. Theoretical maximum energy that can be extracted from the system, when…

A: The maximum work,Where, is the loss of the available energy.

Q: A certain satellite has eccentricity of 9.5981 x 10-3 and its semimajor axis is known to be 7194.9…

Q: A sign (m. = 500 g) hangs from a horizontal beam (length L = 3m and mass mi, = 1.5 kg) as shown in…

Q: Write a matrix equation that determines the loop currents. 24 V 192 452 $252 Ω 18 V 592 m 3 Ω 14 V…

Q: Calculate what the sound level will be 9.50 km away from this jet plane, taking into account air…

Q: Problem 4. Show that the expression x(t)= te 2 is a solution of the critically damped oscillator.…

Q: Find the Hamiltonian function corresponding to the Lagrange function ·bxx² - 1/1w²x² zw²x² — ax³ 2…

Q: Use the Law of Universal Gravitation and the information in the chart to calculate the gravitational…

Q: What is the apparent depth of a pool, which is actually d-meters deep, for a perso who is standing…

Q: Energy system (Peter) a. Give an overview of the global energy situation. Touch upon (the level of)…

Q: A proton travels through uniform magnetic and electric fields. The magnetic field is in the negative…

A: The objective of the question is to find the magnitude of the net force acting on the proton in…

Q: If h in u-tube manometer is at 45 mm (mmH2O), find the pressure at its state in Pa. Answer text…

A: Height For , density Pressure

Q: A meter stick lies along the x' axis and at rest in the rocket frame. Show that an observer in the…

Q: Module 13-2 Gravitation and the Principle of Superposition 6 In Fig. 13-32, a square offedge length…

A: GivenThe length of the edge, The diagonal of the square, The mass on the sphere,The force due to…

Q: Part A Find an expression for the magnetic field strength at the center (point P) of the circular…

Q: Round to nearest hundredth

A: The objective of this question is to calculate the magnitude of the electric force acting on charge…

Q: which the Lagrangian is I = mc² (1-√√1-B²)-kx² where ß = == a) Obtain the Lagrange equation of…

A: Required to find the equation of motion.

Q: Three particles, charge q₁ = +11 µC, q2 = -17 μC, and q3 = +30 μC, are positioned at the vertices of…

A: Given,The three charges,The distance,

Q: According to the first law of thermodynamics: Select one: O a. Heat cannot be converted totally to…

A: The first law of thermodynamics states that the total energy of the universe remains constant.Hence…

Q: 1. Derive the density of states as a function of energy for a purely two-dimensional electron…

Q: A mass m is free to move without friction in a hoop of radius R, which has no mass. The hoop rotates…

Q: Suppose that A,, is a covector field, and consider the object Fμv=O₁ Av - O₂ A₁. (a) Show explicitly…

A: The objective of the question is to prove that the definition F = ∇A - ∇A, which uses the covariant…

Q: Jack and Jill are maneuvering a 3300 kg boat near a dock. Initially the boat's position is m and…

A: Solution Given dataBoat mass M=3300kgInitially boat position \)" data-mce-style="cursor:…

Q: Exercice 12 page 746: Two capacitors, C₁ = 5μF and C2 =12 µF, are connected in parallel, and the…

A: Solution Given data Capacitance C1=5μFCapacitance C2=12μFCalculate the equivalent capacitance…

Q: a clock's hour hand goes through 1.5 revolutions in 90 minutes. Calculate the angular displacement…

A: The objective of the question is to calculate the angular displacement of the hour hand of a clock…

Q: A pulse can be described as a single wave disturbance that moves through a medium. Consider a pulse…

A: A pulse defined at time t by the equationcentered around x=0mAlso given the pulse moves with a…

Question

Please do part d only

Knudsen number variation
A space capsule is 15.6 feet in diameter and weighs 22 metric tons at Earth sea level.
(a) Calculate the Knudsen number for the capsule at Earth sea level. Assume a molar
mass of 28.9 ×10−3 kg/mol, a molecular diameter of 0.36 nm, and a density of
1.225 kg/m3.
(b) Calculate the Knudsen number for the capsule as it is approaching the Interna-
tional Space Station in low Earth orbit (LEO), 300 km above sea level during a pe-
riod of extremely high solar activity. Assume a molar mass of 18.1 ×10−3kg/mol,
a molecular diameter of 0.34 nm, and a density of 1.7 × 10−11 kg/m3.
(c) Calculate the particle number density at LEO.
(d) Classify the flow around the capsule at sea level and in low earth orbit as con-
tinuum, transitional or free molecular based on the Knudsen number. Explain in
words why this classification is important to understanding the fluid dynamics.