An engineer group studies on the design of a tour balloon for Cappadocia. It is planned that the design details will be determined through the use of a small-scale model for a prototype balloon. The prototype balloon will be departing from a hill with 30 m height. In the small-scale model, a platform with 0.1, m height will be used to simulate the hill. h = f(t, ho, Vo, g) a) Determine the initial vertical speed (Vo) of the balloon when the initial vertical velocity for the model is found Vo to be 3 m/s. b) How long will the prototype reach the height that the model reaches within 33 minutes? ho c) Calculate the corresponding height (h) for the prototype when the height is 60 m for the model. h = 0

An engineer group studies on the design of a tour balloon for Cappadocia. It is planned that the design details will be determined through the use of a small-scale model for a prototype balloon. The prototype balloon will be departing from a hill with 30 m height. In the small-scale model, a platform with 0.1, m height will be used to simulate the hill. h = f(t, ho, Vo, g) a) Determine the initial vertical speed (Vo) of the balloon when the initial vertical velocity for the model is found Vo to be 3 m/s. b) How long will the prototype reach the height that the model reaches within 33 minutes? ho c) Calculate the corresponding height (h) for the prototype when the height is 60 m for the model. h = 0

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

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An engineer group studies on the design of a tour balloon for Cappadocia. It is planned that the design details will be determined through the use of a small-scale model for a prototype balloon. The prototype balloon will be departing from a hill with 0,30m height. In the small-scale model, a platform with 0.1 m height will be used to simulate the hill. a) Determine the initial vertical speed (Vo) of the balloon when the initial vertical velocity for the model is found to be sm/s.
Task 3 a. If the Pressure produced by the gas cylinder of the motor of the rocket is governed by the below equation: P = sin* (V)cos³ (V) And the energy is given by: V2 W = PdV Jyi If V2=2V1, Find W. ii. Use Matlab or excel to plot the Energy in the interval [0, 2n] i. What will be W if V2=4V1. ii.
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1. The following diagram shows a model of a river. a. Give a dynamic systems model for h1, hz and h3 (does not need to be in state-variable matrix form). The system inputs are qmi and qm2. b. In steady state, what is the flow out of the tank on the right? Use the following values: qm1 = qm2 = 20 kg/s, A1 = Az=1 m², p = 1 kg / m³, r = 1, R = 1 / m-s; use g = 10 m/s². [Hint: This can be solved without much work. Don't spend too much time on this part.] Im2 Iml A R | A2 R R
xro O moodle.nct.edu.om/mod/quiz/attempt.php?attempt%3D272208&cmid%3D36916 O False The diagram which gives the pictorial representation of the situation is called space diagram. Select one: True False Corth
You are designing a roller coaster ride. The cars (mass m) start from rest at the top (height H) of a 45 degree incline. They pick up speed and complete the loop (diameter h). Assuming a frictionless track, how high must you build the start of the ride in order for the riders to feel wightless at the top of the loop? No values given, leave equations in terms of m, h, and H.
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If solving the question in 3D calculations is difficult, then use the 2D system to determine the equations of the filuid pressure. Select one: O True O False A beaker is filled with a liquid of density p1 up to a certain height. A is a point, h m downwards from the free surface of the liquid as shown. The liquid is replaced by equal volume of another liquid of density p2. If p1 > p2, how will the pressure at point A change? Free Surface Base a) remain same b) increase c) decrease d) become zero Select one: O A B O C D.
In MATLAB code A barometer is used to measure atmospheric pressure and is filled with a high-density fluid. The pressure P measured by a barometer is the height of the fluid column, h, times the density of the liquid, p, times the acceleration due to gravity, g, or P = hpg. Find the height to which the liquid column will rise for pressures from 0 to 100 kPa for two different barometers. Assume the first uses mercury, with a density of 13.56 g/cm^3 (13,560 kg/m^3) and the second uses water, with a density of 1.0 g/cm^3 (1000 kg/m^3). The acceleration due to gravity is 9.81 m/s^2. Before you start the calculation, be sure to check your units in this calculation. The metric measurement of pressure is a pascal (Pa), equal to 1 kg/ms^2. A kPa is 100 times as big as a Pa. Your answer should be a two-dimensional matrix. (use meshgrid)
A::V Gmail > A docs.google.com EE Q 3: A tank filled with oil,lf the total weight is(2 KN) and weight of tank only is (200 N) and volume of the tank is (190 L) , Find : Mass density ,specific weight ,specific gravity ,specific volume for the oil. 0.947 KN/m3,9.6534 kg/m3 , 0.01035 m3/kg , 9.65 94.7 KN/m3 ,96.534 kg/m3 , 0.01035 m3/kg , 1.965 9.47 KN/m3 ,965.34 kg/m3 , 0.01035 m3/kg , 0.965 Page 2 of 2 Back Submit Never submit passwords through Google Forms. This form was created inside of Mustansiriyah University. Report Abuse Google Forms
From rest a balloon begins to rise. the Balloon experiences a lift due to a buoyant force of 8000 N. 1. Total massof the balloon is 600kg. Find Acceleration. 2. The balloon rises a distance of 10m and loses a mass of 50 kg after a weight is thrown off. Find the acceleration of the balloon after this weight loss 3. Find the initial velocity of the mass in the vertical direction at the timeof the jump. 4. After falling 10 m, find the mass' final velocity as it comesinto contact with the ground. 5.What is the total time the mass takes to hit the ground? 6. Find the heightof the balloon when the mass hits the ground 7. The mass lands 3 m from the baloon, find the horizontal velocity required to land 3m from the balloon. 8. Since the balloon exeperiences equal forces when the mass is thrown off, what is the horizontal velocity the baloon experiences during this act and how far does the balloon travel when the mass comes into contact with the ground?