2m4 m6V₁Rope ABoltsFlangeFigure Q5 (a)Nozzle area =0.01 m²Horizontal free jetsFigure Q5 (b)V₂Rope B Q5 (a)(b)Water flowing steadily at the rate of 0.16 m³/s is deflected downward by an angledelbow as shown in Figure Q5 (a). Given the parameter such D = 30 cm, d = 10cm,h = 50 cm, and mass of the elbow is 200 kg. Determine the force acting on the flangesof the elbow and the angle its line of the action make with the horizontal. Take theinternal volume of the elbow to be 0.03 m³ and disregard the frictional effects.Water flow steadily from a tank mounted on the cart as shown in Figure Q5 (b).After the water jet leaved the nozzle tank, it falls and strikes a vane attached toanother cart. The cart's wheels are frictionless and the fluid is inviscid. Determine;(i)(ii)The speed of the water leaving the tank, V₁, and the water speed leaving thecart, V2.The tension in rope A and B.

(a) Write the given data. Q=0.16 m3/sD=30 cmd=10 cmh=50 cmmelbow=200 kgVint=0.03 m3 Draw the…

Answered: 2 m 4 m 6 V₁ Rope A Bolts Figure Q5 (a)…

Engineering

Mechanical Engineering

2 m 4 m 6 V₁ Rope A Bolts Figure Q5 (a) 0.01 m² Horizontal free jets Nozzle area= Figure Q5 (b) V₂ Rope B.

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: A beam of length L = 10ft is supported by a fixed (cantilever) support at O. determine the reactions…

A: According to the question data A = 10lb, B = 300lb-ft and C = 10lb We need to find Reactions at O

Q: The state of stress at a point is described by: [200 0 0 0 155 0 0 0 -150] MPa If the point is taken…

A: Givenσyield=345 MPa

Q: Find the displacement of point "P" (in mm) using quadratic shape functions, when the displacements…

A: Given data: q1=0.18mm, q2=-0.10 mm q3 = 0.40mm N1 =-0.08, N2=0.36 N3 = 0.72 To find: The displacemnt…

Q: 1. Determine the x and y components of the forces shown.

A: Given

Q: A metal bar has a cross section of A mm². The length of the bar is B m. The bar is heated from one…

Q: W10 X 60 X 45 17.6 13.3 10.22 10.10 10.080 8.020 0.680 0.620 0.420 0.350 341 248 66.7 49.1 4.39 4.33…

A: To Find : The shear stress in the adhesive. Given: The load is F=20kip Free Body Diagram: The F.B.D…

Q: A power plant using a CCGT cycle with .4 electrical efficiency 0.6 and with 8 % non-usable heat and…

A: The usable heat delivered by a Combined Cycle Gas Turbine (CCGT) plant can be calculated using the…

Q: 5. What weight W is necessary to start the system of blocks shown in the figure moving to the right?…

A: The coefficient of friction is μ=0.1. The pulleys are frictionless.

Q: A two-degree-of-freedom system has O Many normal modes O One normal mode OTwo normal modes O Three…

Q: ↑ RA ZY KN YZ m B VXZ kN/m Find Ra, Rc, Ma & Mc: Draw Shear & Moment Diagram ZY m C Rc

Q: 3. Solve for the Resultant of the force system shown and its direction with respect to the positive…

A: Solution : Since for the condition of resolution of forces , ΣFₓ = Rₓ ΣFy = Ry NOTE: sign…

Q: determine the center of gravity of the

A: Given: The circular sector of angle is, θ=45°. The radius of circle is, r=220 mm. Let us consider…

Q: Determine the magnitude of the resultant force R (in N) to replace the force system in the given…

Q: Why isn’t the force in “CE”= 10root5, because 10^2+20^2=10root5 and not 10root2.

A: Given: find the force in member CE.

Q: Explain how this part is obtained?

A: Given: L=1.5m To find: The pressure difference, P1-P2 The density of fluids: For water, ρw=1000…

Q: Air flows through a cylindrical combustion chamber of diameter 0.3 m and length 3 m as shown in the…

A: Given the inlet conditions of case-a as: Inlet stagnation temperature: T0 = 1,000 KInlet stagnation…

Q: (a) A spherical shell is immersed in water. The density of the spherical shell is 1650 kg/m'. If the…

A: Note: As per policy, we can solve the first question from different multiple questions. Please…

Q: What is wire radius? What is Center to Center distance between wires? What is Air-domain radius?…

A: To explain: The wire radius, center-to-center distance, air-domain radius, characteristic impedance,…

Q: A 6-x 10-in. timber beam has been strengthened by bolting two - x 2-in. steel straps to it as shown…

A: Given: Modulus of elasticity of the wood: →E1=1.5×106 psi Modulus of elasticity of the steel:…

Q: thank you can u plz solve f&g now

A: OD = 1.9 in No of fins = 36 k = 34.9 Btuh×ft2F Height H = 0.5 in Thickness t = 0.035 in Wall…

Q: What six instructions in the paper mill lead to the manufacturing of the design?

A: In the paper mill for the manufacturing of the paper design, there are several instructions or steps…

Q: Having determined the efficiency of different above engines, you should review these efficiencies by…

A: Write the given data. For compression ignition engine,Compression ratio, r=6+φ=6+0.2=6.2Cut off…

Q: An airplane weighs 1600 pounds. At the last second prior to takeoff 200 more pounds are added to the…

A: GivenAn airplane weighs 1600 pounds. At the last second prior to takeoff 200 more pounds are added…

Q: 244 ft³ with mperature of urnace with ire of ono

A: According to Bartleby guideline, we can answer only one question at a time. You are requested to…

Q: -2 m- 60 KN B. 4 m 50 kN/m C

Q: The Fourier series for a periodical square wave is O sin (wt) + = sin(3wt) + ½ sin(5wt) + O sin (wt)…

A: The Fourier series of a periodic square wave can be represented as an infinite sum of sine and…

Q: A bowling ball is dropped from a boat so that it strikes the surface of the lake with a speed of…

A: Given the downward acceleration and initial speed. Required: Final speed on reaching the bottom of…

Q: Problem 1. Four Loko used to be an alcoholic, caffeinated drink on the market. The drink contains 8%…

A: The lethal dose of caffeine for an adult is estimated to be around 10 g, which is equivalent to…

Q: EXAMPLE x 'Q.3 F=30N DETERMINE IF THIS FORCE IS A DE QUATE TO PROVIDE A 14 N-m OF TORQUE TO TURN THE…

Q: 3. Determine the moment of inertia of the shaded area about the x-axis. 25 mm 295 mm 85 mm |--- 85…

A: To find: The moment of inertia. Given: The shaded area is shown below.

Q: Continue the question

Q: QUESTION 5 Which of the following formulas describe the thermal efficiency of a cycle? Select all…

A: Find the thermal efficiency of the cycle

Q: crane consists of three parts, which have weights of W₁-3700 lb, W₂-750 Vs-1600 lb and centers of…

A: W=720lb W1=3700lb W2=750lb W3=1600lb To find reaction on front and rear wheel

Q: 1. Fluid is moving at rate of 3m/s in a chamber of a 12inch positive displacement flow meter, if the…

A: “Since you have posted multiple questions with multiple sub parts,we will provide the solution only…

Q: P23-3. Draw the FBD necessary to determine the reaction at the wall where the pipe is attached.

A: To draw: The free body diagram

Q: A 20◦ helical gear has tangential force of 200lb and helix angle of 16◦ and face width of 0.6”.If…

A: Given: Here are the given data, Pressure angle,α=20° Helix angle, ψ=16° Tangential Force, FT=200 lb…

Q: A house has a composite wall of wood, fiberglass insulation, and plaster board, as indicated in the…

Q: 1-28. (a) Determine the moment of the 260-lb forces of Fig. P1-28 with respect to point when (1) the…

Q: The above load-elongation data were obtained for a specimen with Lo = 0.1 m and To 7 mm. Plot the…

A: Given:Original length of the specimen, Lo=0.1 m=100 mmOriginal radius of the specimen, ro=7…

Q: 1. The phase change from a solid to a liquid is referred to as: A. vaporization B. condensation C.…

Q: The 100 meter diameter wheel needs to be designed so that it rotates at a constant rate and every…

A: Write the given data. Radius of wheel, R=1002=50 mTime in one revolution, T=15 min=900 s Draw the…

Q: 1: The crate has a mass of 50 kg. ps = 0.25 μ = 0.20

A: Givenm=50kgμs=0.25μk=0.20θ=30o

Q: 1. The motor M is connected to the speed reducer C by the tubular shaft and compling. The shaft has…

A: The given values are - do= 1inch =25.4 mm, di= 0.75 inch =19.05 mmτallow = 12 ksi =82.74 MPa P =…

Q: Here, we are supposed to find the deflection equations, we had done this problem with previous…

A: The length AB is 0.6 m The length BC is 1.5 m The E of the wooden board is 10 GPa The cross-section…

Q: 2. A 40 kg block is at rest on the slope when a force F is applied to it. Determine the magnitude of…

A: Mass of block = 40kg Find the force F is the velocity is 5m/s at t=2sec

Q: Calculate for the Carnot heat engine efficiency producing 12 hp of work by transferring energy…

A: Given:Work produced by the Carnot heat engine, W=12 hpTemperature of the source, TH=250oFTemperature…

Q: can you give me two black innovators who have made an impact on STEM. I need to write a research…

A: To give: The name of two black innovators.

Q: 2. Determine the horizontal and vertical components of reaction on the beam caused by the pin at B…

Q: A 3D truss is supporting 2 forces F₁ and F2. F₁ = 1,080 N at and angle alpha= 33 deg. F1 is in the…

Q: termine the critical path by filling the table below What is the length of this project in days?…

A: To find: The critical path and the length of the project.

Question

2m
4 m
6
V₁
Rope A
Bolts
Flange
Figure Q5 (a)
Nozzle area =
0.01 m²
Horizontal free jets
Figure Q5 (b)
V₂
Rope B

Q5 (a)
(b)
Water flowing steadily at the rate of 0.16 m³/s is deflected downward by an angled
elbow as shown in Figure Q5 (a). Given the parameter such D = 30 cm, d = 10cm,
h = 50 cm, and mass of the elbow is 200 kg. Determine the force acting on the flanges
of the elbow and the angle its line of the action make with the horizontal. Take the
internal volume of the elbow to be 0.03 m³ and disregard the frictional effects.
Water flow steadily from a tank mounted on the cart as shown in Figure Q5 (b).
After the water jet leaved the nozzle tank, it falls and strikes a vane attached to
another cart. The cart's wheels are frictionless and the fluid is inviscid. Determine;
(i)
(ii)
The speed of the water leaving the tank, V₁, and the water speed leaving the
cart, V2.
The tension in rope A and B.

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

VIEW

Step 2

VIEW

Step 3

VIEW

Step by step

Solved in 3 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

3. Consider the setup below: h; = 200.0 cm, hạ = 150 Cm, and at A the 3.00 g bead has a downward speed along the wire of 800.0 Cm/s. In other words at point A the bead has both potential energy and kinecic energy. a. How fast is the bead moving as it passes point B if friction is negligible? b. How much energy did the bead lose to friction work if it rises to a height of 20.0 cm above C after it leaves the wire?
lower end of a string and is moving in a horizontal circle of radius R = 0.15 m at constant speed v = 0.51 m/s. The string has length l and negligible mass and makes an angle 0 with the vertical. The angle 0 is %3D m
In the figure, a cube of edge length L = 0.556 m and mass 1200 kg is suspended by a rope in an open tank of liquid of density 1.03E+3 kg/m3. Find (a) the magnitude of the total downward force on the top of the cube from the liquid and the atmosphere, assuming atmospheric pressure is 1.00 atm, (b) the magnitude of the total upward force on the bottom of the cube, and (c) the tension in the rope. (d) Calculate the magnitude of the buoyant force on the cube using Archimede's principle. %3D L/2
A submarine is traveling at a depth of ‘95’ kilometers in the ocean, where the gagepressure is 840 Kg(f)/cm2 . The density and bulk modulus of elasticity of water at the top surface of the ocean are 1025 kg/m3 and 24000 kg(f)/cm2 respectively. Find the following:(i) What will be the density of water at the depth of 2.0 kilometers?(ii) What will be specific volume and change of volume at that depth?(iii) What is the pressure at the top surface of the submarine? How much will bechanged in pressure if submarine change direction from North to East?
A bucket of height H is filled to height H and has two holes A (H/2 from the ground) and B (3H/4 from the ground) of sections "a" and "a/100" respectively. The cross-sectional area of the tank is D. Find the net force on the tank neglecting all friction and the tank's own weight. H/2 A D B H/4 Figura 5.37 Activar W Ve a Configu
Question 3 (a) A pipe of 300 mm diameter conveying 0.30 m³/s of water has a right-angled bend in a horizontal plane (90°) as shown in Figure Q3(a). Find the resultant force exerted on the bend if the pressure at inlet and outlet of the bend are 24.53 N/cm² and 23.54 N/cm². Assume the density of water is 1000 kg/m³. (2) (V P;Aq, 1) Figure Q3(a) Pipe bend P2A2
4.120 A rocket sled accelerates from rest on a level track with negligible air and rolling resistances. The initial mass of the sled is M, = 600 kk. The rocket initially contains 150 kk of fuel. The rocket motor kg burns fuel at constant rate m : 15 Exhaust gases leave the rocket nozzle uniformly and axially at S m Va = 2900 relative to the nozzle, and the pressure is atmospheric. Find the maximum speed reached S by the rocket sled. Calculate the maximum acceleration of the sled during the run.
Q4: Oil was placed over water placed in a tube in the shape of the letter A, so it moved the air on the other side, as in the figure below. Find the height of the column of air, and if it passes through the left tube, what is its velocity, knowing that the air density is 1.29 kg/m³ and the density of the oil is 750 kg/m³? Patm Patm air h L = 5 cm -K Point B Poin: A water oil
A tube of length L = 25.0 m that is open at one end contains airthe pressure of an atmosphere. It is pushed vertically into a freshwater lake.until the water rises halfway up the tube, see figure below. Suppose the temperature is the same at all points and does not vary with time. Adopt g=9.8 m/s2.a) What is the depth h of the bottom end of the tube?b) When was work W performed on the (ideal) gas inside the tube?
P.4) A block of mass m = 2 kg is projected up a frictionless slope (0 = 30°, L = 5 m) with initial speed of v = 8 m/s and contacts a linear spring. What should the spring stiffness k be if the spring's compression is to be equal to 10 cm? m
Water moves through a constricted pipe in steady, ideal flow. At the lower point shown in the figure below, the pressure is 1.70 x 10° Pa and the pipe radius is 2.50 cm. At the higher point located at y = 2.50 m, the pressure is 1.30 × 10° Pa and the pipe radius is 1.30 cm. P2 P (a) Find the speed of flow in the lower section. 5.79 Your response differs from the correct answer by more than 100%. m/s (b) Find the speed of flow in the upper section. m/s (c) Find the volume flow rate through the pipe. m³/s
Q3: Calculate the force component Fx, Fy needed to hold the stationary vane of Figure (2). Q o =80 L/s: p = 1000 kg/m1: Vo = 120 m/s. Figure (2) 0=60° O 90-'0