50 N 100 mm 200 mm
Q: 200 mm 150 mm 100 mm 200 mm
A:
Q: 3 mm 600 N 6 mm 100 N/mm 3 mm Cable |1 mm 4 mm 4 mm
A: Drawing the FBD of the frame as shown below, Where, FT is the triangular load, FR is the…
Q: 230 mm 60 mm 25y
A:
Q: 470 F 130 C
A: Given
Q: 80 mm 50 mm 2 1 7 15 mm 15 mm 3.
A: The Center of mass is a point where the sum of the moment of the weight of each particle is zero. It…
Q: E 600 mm B Rigid P. 80 mm 160 mm 80 mm
A:
Q: 4000 N 3000 N B C 300 mm 100 mm 100 mm 十+
A: For question 1 option B is correct. For question 2 option A is correct. Steps are given in next…
Q: 200 mm C 600 mm 200 mm
A: Area moment of inertia is a geometrical property that defines how different points are arranged with…
Q: س)1( : جد مقدار الزاوية التي تجعل قيمة المحصلة Ib 0 0 20 ، كذلك أحسب الزاوية )15 درجة ( التي تصنعها…
A:
Q: 75 mm D. 1.5 m E F B 2 m 150 mm 5 deg 2 deg 4 deg 1.5 deg 1 deg 3.5 deg
A: Write the twist angle of point A respect to point B. φA/B=φA-φBφA-φB=3°…
Q: 1. 100 mm 225 mm 75 mm 125 mm 50 mm
A: According to the details provided in the question, we need to calculate centroid.
Q: 600 mm 600 mm
A: given:
Q: 30 mm 150 mm 30 mm 150 mm
A: given; →dimension for base block (b1*d1)=(150mm*30mm)→dimension for top block (b2*d2)=(30mm*150mm)
Q: Fx A 75 mm 50 mm 150 mm 350 mm В F2 250 mm y
A:
Q: 100 mm 100 mm
A: GivenP=9kNd=6mm
Q: 20° F = 10 N 250 mm 20N B 60% 37.5 mm
A: The given system of force is – The component of 10 N forces is –
Q: 12 MPа 46 MPа 19 MPа
A: Given:σx=-46 MPaσy=12 MPaζxy=19 MPa
Q: A 150 mm B 240 mm 80 mm
A:
Q: Locate the centroid of the plane area shown.
A: The centroid of a 2d plane is the point at which the entire plane can be balanced on the tip of a…
Q: 100 kN 50 mm 50 mm 75 mm 75 mm 40 kN 30° 400 mm
A:
Q: 5 kip/ft 15 kip ft 15 kip ft B 6 ft 10 ft 6 ft
A:
Q: 47 mm 47 mm Semiellipse. |26 mm 70 inm 2.
A: Given Data: The base of the triangle is b = 94 mm The height of the triangle is h = 70 mm The…
Q: SIG 4 3,000 SIG 3 2,500 2,000 TR....I................. .... ....... 1,500 ance (ft)
A: Consider the graph of time versus space:
Q: 25 mm R50mm 100 mm
A: Given
Q: 10 mm Y 15 mm 30 mm 40 mm 10 mm 15 mm X
A:
Q: 6 MPа А 6 MPa 60 6 MPа B
A: For solution refer below images.
Q: Ix, Iy, Ixy 10 cm Y 5 cm 10 cm 5 cm X
A:
Q: 30 mm OF 10 mm 30 mm 10 mm X
A: Option C is correct 503675.34 mm4
Q: Take a = 330 mm. y a - 70 mm 120 mm a
A:
Q: 10 mm 20 mm 50 mm
A:
Q: 620 mm 125 350 mm
A: Consider the line diagram of the following figure as shown below – From the line diagram, it is…
Q: 50 mm 150 mm 150 mm 300 mm *
A: A1=300×50A1=15000 mm2y¯1=3002=150 mm from bottom,A2=300×50A2=15000 mm2y¯2=300+502=325 mm,
Q: 0 = 0° A
A:
Q: Y. 20 mm 20 mm 260 mm 20 mm 200 mm
A:
Q: 600 mm C 360mm
A:
Q: 300 mm 300 mm Figure Q2
A: Given data:- Area =1950 mm^2 Maximum deflection of point C = 0.6mm
Q: 100 mm 30 50 mm
A:
Q: 300 N 36 mm
A: We need to apply force equlibirium equation along the horizontal direction∑Fx=0Ax-C=0......consider…
Q: 50 mm 150 mm 50 mm 85 mm Section X-X 20 kN
A: Let us shift the load to section X-X. The moment M and force P will create the same effect.
Q: 120 mm 240 mm 120 mm
A: .
Q: mm 40 mm 1.5m
A:
Q: 1MPA = 1N/mm? Select one: True False
A: Given that , 1MPa =1 N/mm
Q: В 125 mm A 175 mm C OD - 225 mm 150 N 75 mm
A:
Q: M M1 k 2k M2 3k M3 X₁ X₂
A: INTRODUCTION : The degree of freedom indicates the number of coordinates that may be used to depict…
Q: 200 mm 300 mm Steel 75 mm Brass
A: Givenρb=8.75 Mg/m3=8750 kg/m3ρs=7.87 Mg/m3=7870 kg/m3
Q: 200 mm B 300 mm 400 mm 100 D G 600 mm
A:
Q: C 110 mm F В 150 mm E 300 mm A D 200 mm 150 mm
A: There is a circumferential contact force between gears B and EF=TABrB=TEFrETEF=TABrErBTAB=170…
Q: 100 mm 25 mm 75 mm
A:
Q: 120 mm 600 mm 10-N 4N 600 mm 4N
A:
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- When does international humanitarian law apply? * Your answer5 example of chemical hazard 5 example of physical hazard 5 example of erginimic hazard 5 example of biological hazardsTRUE OR FALSE 1.) In rheology, food materials of higher viscosity have higher resistance to flow. 2.) Specific heat is the amount of heat needed to raise the temperature of a unit mass of an object one degree higher without change of phase 3.) Surface area, is related to size but also depends on particle shape. 4.) Size can be correlated with weight given that the material has more or less uniform composition. 5.) Latent heat of fusion is the amount of heat that must be removed to convert water to ice and is also the same as the amount of heat added to convert ice to water.
- It causes resistance due to applied forces which is a result of restrain deformations Shear Force Bending Moment Stress Elasticity.Stiffness is the property that enables a material to withstand high stress without great strain. It is a resistance to any sort of deformation and is a function of the modulus of elasticity, E, of the material. True False There are currently two (2) systems of units used in engineering practice in the United States; they are the U.S. Customary System, also referred to as the English System, and the International System or the SI System. True False (explantion is not needed, just a correct answer, very simple, thank you)Whose law states that the volume of a gas varies inversely with the absolute pressure, as long as the temperature remains constant? A. Charles' B. Boyle's C. Newton's D. Dalton's
- Most collisions are inelastic, meaning the kinetic energy is not conserved in the system. (a) What are the three most common ways for energy to leave a system during a collision? To the best of my knowledge, the use of the word "perfectly" in a perfectly elastic collision is not necessary. Any elastic collision is a perfectly elastic collision. Both concepts mean the kinetic energy is conserved. The use of the word "perfectly" in perfectly inelastic collisions is just telling you that the two objects end up sticking to each other (have the same final velocity). (b) Combine the equations for the 1-D conservation of linear momentum and the conservation of kinetic energy to create a third equation. Any two of these equations now contain all the information, so the three equations are said to be linearly dependent in math-speak. This means we only need to use any two equations for our solutions, naturally we will chose the simplest two. (c) Use two of these equations along with…University of Basrah — College of Engineering Department of Petroleum Engineering Subject: Petroleum Propertics (PeE15.4) Exam: Second Semester Class: 2™ year Date: 20/ 4/ 2019 Examiner: Dr. Basim A. Abdul Hayi Time: 1:30 Hours Attempt All Questions Q1] ((40) Marks ) A. What are the evidences supported the organic origin of crude oil theory ? B. What are the evidence supported the carbide theory ? Q2] ((40) Marks) 1. Define viscosity? How many types ? 2. Define API gravity ? How are effected on price of petroleum? 3. Penetration index? What are types . Q3] Answer true or false. Correct false statements. ((20 Marks)) 1. Maltene consist sub fractions resin and oil . 2. The load using in penetration experimental is 100 kg. 3. The unite measuring to softening point is seconds. - 4. The volume of measuring in redwood is 50 ml. 5. One method for separation asphalt . 6. Distillation process classified into two only. 7. The purpose from measuring flash point is detcrmination aromat/c content.…TRUE OR FALSE: __________a. Two different materials can have the same moduli of elasticity and rigidity but different values of Poisson’s ratio __________b. If a material has a Poisson’s ratio of 0, it is still possible to relate its moduli of elasticity and rigidity __________c. The ratio between the modulus of rigidity and modulus of elasticity is constant __________d. For most materials, the maximum ratio for the modulus of elasticity to modulus of rigidity is 3.
- [24] Which of the following statement(s) is/are correct? I. The “action” and “reaction” forces are in the same direction. II. The “action” and “reaction” forces act on different bodies. III. The “action” and “reaction” forces are exerted by the same object. IV. The “action” force is sometimes greater than the “reaction” force. I and II only I and III only II only none of the given choices IV onlyMechanical Q What are the fundamental principles, advanced technologies, and significant challenges that engineers encounter when designing highly energy-efficient HVAC (Heating, Ventilation, and Air Conditioning) systems for large-scale commercial buildings, and how can these systems contribute to sustainability and energy conservation on a broader scaleYour team started by assessing the boiler and steam network. You gathered the following information: The boiler operates at a pressure of 7 bar. The AF ratio is adjusted manually. The steam network is insulated, except at certain points where fittings and valves are present No visible steam leaks. The exhaust gas temperature is 330°C. The O2 percentage in the exhaust was found to be 8.5%. Maintenance is not regular. The boiler consumed 23,000 GJ of natural gas in 2022 (price of natural gas is JD 7.5/GJ). Prepare a short note (to be incorporated in the audit report which your team leader will compile) to provide your assessment of the boiler and steam system. Your contribution should include the following: 1. Estimation of current boiler efficiency. 2. Measures that can be taken to improve the boiler efficiency.