PhysioEx Exercise 7 Activity 1

Simulink Assignment- Filling a Tank In fluid mechanics, the equation that models the fluid level in a tank is: dh 1 -(min Ap - mout) dt h is the water level of the tank A is the surface area of the bottom of the tank pis the density of the fluid Mim and mout are the mass flow rates of water in and out of the tank, the flow out is a function of the water level h: 1 mout Vpgh Ris the resistance at the exit. Assume that the exit is at the bottom of the tank. g is the gravitational acceleration What to Do: 1. Build a model in Simulink to calculate the water level, h, as a function of time. Your model should stop running as soon as the tank is full. 2. Assuming the height of the tank is 2 meters, after how many seconds does the tank fill up? Use the following constants to test your model: • A: area of the bottom of the tank = 1 m? • p: the density of fluid = 1000 kg/ m? • R: the resistance at the exit = 3 (kg.m)-1/2 • ho: Initial height of the fluid in the tank = 0 m • g: the gravitational…

dated metncpdf Thermodynamics An Engineering X E Module2-chap2propertiesofpure x O File C:/Users/DANIEL/Desktop/300L%202ND%20SEMESTER%20MATERIALS/Module2-chap2propertiesofpuresubstances-130703012604 phpap. ID Page view A Read aloud V Draw H Highlight O Erase 40 MEC 451 - THERMODYNAMICS Faculty of Mechanical Engineering, UITM Supplementary Problems The pressure in an automobile tire depends on the temperature of the air in the tire. When the air temperature is 25°C, the pressure gage reads 210 kRa. If the volume of the tire is 0.025 m3, Cetermine the pressure rise in the tire when the air temperature in the tire rises to 50°C. Also, determine the amount of air that must be bled off to restore pressure to its original value at this temperature. Assume the atmospheric pressure is 100 kPa. [ 26 kPa, 0.007 kg] 1. A 6 4 2:57 PM Lucky CORER 144 Tum lock 314 % 8 1/2 24 6 1/4 23 T K F pause B

Pearson eText Study Area mylabmastering.pearson.com Access Pearson P Pearson MyLab and Mastering Problem 15.106 P Course Home b Answered: HW_02.pdf EE 213-01 > Assignments HW_#... 8 of 8 Document Sharing User Settings The two spheres A and B each have a mass of 400 g. The spheres are fixed to the horizontal rods as shown in (Figure 1) and their initial velocity is 2 m/s. The mass of the supporting frame is negligible and it is free to rotate. Neglect the size of the spheres. Part A If a couple moment of M = 0.3 N · m is applied to the frame, determine the speed of the spheres in 3 s. Express your answer to three significant figures and include the appropriate units. Figure 1 of 1 ☐ ? v = Value Units Units input for part A Submit Request Answer Return to Assignment Provide Feedback ■Review

Please help me Matlab

I want to run the SGP4 propagator for the ISS (ID = 25544) I got from spacetrack.org in MATLAB. I don't know where to get the inputs of the function. Where do I get the inFile and outFile that is mentioned in the following function. % Purpose: % This program shows how a Matlab program can call the Astrodynamic Standard libraries to propagate % satellites to the requested time using SGP4 method. % % The program reads in user's input and output files. The program generates an % ephemeris of position and velocity for each satellite read in. In addition, the program % also generates other sets of orbital elements such as osculating Keplerian elements, % mean Keplerian elements, latitude/longitude/height/pos, and nodal period/apogee/perigee/pos. % Totally, the program prints results to five different output files. % % % Usage: Sgp4Prop(inFile, outFile) % inFile : File contains TLEs and 6P-Card (which controls start, stop times and step size) % outFile : Base name for five output files   %…

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1. For the following concentration expressions, indicate whether they are uniform or nonuniform and in how many dimensions (OD, 1D, 2D, or 3D), and steady or unsteady. Then for the following control volume and origin, and table of constants, use Excel or Matlab to graph profiles that show how concentration changes within the control volume and over time to a limit of 20 for the following: C(x,0,0,0), C(0,y,0,0), C(0,0,z,0) and C(0,0,0,t). On each graph, show which parameters are held constant, the CV boundaries, and the point where all four plots overlap. 20 C(x=0) 10 a 0.0001 b 0.001 | 20 0.01 k 0.1 100 All of the following functions are C(space, time) and so not necessarily just x as suggested. a. C,(x)= C,(x = 0)x exp{- ax}

a.mheducation.com/ext/map/index.html?_con%3Dcon&external_browser%3D08&launchUrl=https%253A%252... Check my NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. The bob of a simple pendulum of length /= 40 in. is released from rest when 0 = 5°. Assuming simple harmonic motion, determine the magnitudes of the velocity and acceleration of the bob after the pendulum has been in motion for 1.65 s. The magnitude of the velocity of the bob after the pendulum has been in motion for 1.65 s is 82699 ft/s. The magnitude of the acceleration of the bob after the pendulum has been in motion for 1.65 s is t/s2. Menu Tro Dicection In fuel

Physics 121 Spring 2021 - Document #11: Homework #04 & Reading Assignment page 4 of 8 Problem 1: Gnome Ride - This from a Previous Exam I. A Gnome of given mass M goes on the Gnome Ride as follows: He stands on a horizontal platform that is connected to a large piston so that the platform is driven vertically with a position as a function of time according to the following equation: y(t) = C cos(wt) Here w is a constant given angular frequency, C is a given constant (with appropriate physical units) and y represents the vertical position, positive upward as indicated. Part (a) - What is the velocity of the Gnome at time t = 0? Explain your work. Present your answer in terms of the given parameters Part (b) – What is the net force on the Gnome at time t = 0? Explain your work. Present your answer in terms of the given parameters Part (c) – What is the Normal Force on the Gnome at time t = 0? Explain your work. Present your answer in terms of the given parameters Some Possibly Useful…

Anasayfam Ders Kataloğu ME2005 54954 ME 2005 Dynamics- Midterm Exam 05.12.2020 @18:00 KTÜ Department of Mechanical Engineering Fall 2020 ME 2005 Dynamics Midterm Exam 01 Genel Önceki Etkinlik 7. Lecture 1 (08.10 2020) 2. Lecture 2 (15,10.2020) Lecture 3 (22.10.2020) Soru 10 If the motion of one particle is dependent on that of another particle, each coordinate axis system for the particles 3. Lecture 4 (05.11.2020) Cevap kaydedildi Lütfen birini seçin: 4. 3,00 üzerinden a. should have the same origin. Make-up Lecture- Lectu işaretlenmiş b. None 6 Lecture 6 (12.11.2020) P Soruyu işaretle c. can be directed anywhere, 7. Lecture 7 (19.11.2020) d. should be directed along the path of motion. Lecture 8 (25.11 2020) O e. should be directed perpendicular to the path of motion. 9. Lecture 9 (26.11.2020) 10 Lecture 10 (27.11.2020) Önceki sayfa 11 ME 2005 Dynamics-M Sonraki sayfa O KTU Department of

2. An air parcel at 950 mb has a temperature of 14°C and a mixing ratio of 8 g/kg. What is the wet-bulb potential temperature of the air? The air parcel is lifted to the 700 mb level by passing over a mountain, and 70% of the water vapor that is condensed out by the ascent is removed by precipitation. Determine the temperature, potential temperature, mixing ratio, and wet-bulb potential temperature of the air after it has returned to the 950 mb level on the other side of the mountain.

Don't Use Chat GPT Will Upvote And Give Handwritten Solution Please

Don't Use Chat GPT Will Upvote And Give Handwritten Solution Please

i just need part 3

1 & 2

Given: The plane accelerates in its current trajectory with a= 100 m/s^2 Farag Angle theta= 5° W=105 kips F_drag= 80 kips m= 1000 lbs Find: F_thrust, F_lift Please include the KD. Fthrust Futel t Fueight 000 BY NC SA 2013 Michael Swanbom