10 kips 3 kips/ft A 3 ft 4 ft 3 ft Draw the moment diagram by parts in your solution sheet. Assume the fixed
Q: What are the shear stress and velocity distributions for an incompressible fluid contained between…
A: Ddr
Q: Determine the coefficient of restitution e between ball A and ball B.The velocities of A and B…
A:
Q: Given the moment reaction at A is 395 N.m (CCW) and the internal moment at C is 215 N.m (CCW). 1.…
A:
Q: Draw the Ts diagram of the whole process
A:
Q: 2-3. Suppose an incompressible fluid flows in the form of a film down an inclined plane that has an…
A: Since we can answer up to 3 subparts so we will answer first 3. Please resubmit the question by…
Q: 8,000 kilograms of dressed poultry are blast-frozen on hand trucks each day (24 hrs) in a freezing…
A: Specific heat is due to virtue of temperature difference across the body. Its expression is directly…
Q: Determine thermal efficiency of the engine in percentage.
A: . Determine thermal efficiency of the engine in percentage.
Q: Screw eye in Figure 1 is subjected two forces, F1 = 400 N and F2= 200 N. Determine the magnitude and…
A: Given Force, F1 = 400 N F2 = 200 N Find Resultant, R
Q: The fuel temperature is measured in the low pressure part of the fuel system just before the fuel…
A: Ans: option first is correct. low pressure part of the fuel system
Q: One of the smooth vertical walls supporting end B of the 145-kg uniform shaft is turned through a…
A:
Q: Which of the following describes something that sugar cube and a leg cube have in common? (a) They…
A: The sugar cube is granulated sugar that has been mixed with a very small quantity of water and then…
Q: Q\Fill in the blanks with the following words (lead/ movement/ ground /claimed/fine /sky /believe)…
A: 5). lead 6). fine 7). Claimed 8). movement 9). believe 10). fine
Q: A body is thrown vertically upward with an initial velocity of 9m/s. Assuming that it falls freely…
A: Initial velocity, v1= 9 m/s Time, t= 2.5 seconds To find: Velocity at 2.5s after discharge
Q: The coil has a mass of 90 kg and a rotating radius of 0.3 m. If the static and kinetic friction…
A:
Q: Question 4: Figure 1 shows a block foundation of mass 200 kg supported by two springs of stiffness k…
A: Given Data The mass of the system is:m=200 kg The spring stiffness is:k=60 kN/m The damping…
Q: Screw eye in Figure 1 is subjected two forces, F1 = 400 N and F2= 200 N. Determine the magnitude and…
A: Given Force, F1 = 400 N F2 = 200 N Find Resultant, R Direction
Q: Write two G-code programs using the following figure where units are in inches. a. The first program…
A:
Q: Solve for a.
A:
Q: 1. What is the percent theoretical air for a combustion process to which the fuel and combustion of…
A: The combustion equation is as follows: - 2H2+O2 →2H2OH2+12O2→H2O2CO+O2→2CO2CO+12O2→CO 4 kg of…
Q: Q3: Air in an ideal Diesel cycle is compressed from 3 L to 0.15 L, and then it expands during the…
A:
Q: Calculate the disposition,
A: Centrifugal pump is a device use to move a fluid a by means of rotational energy . Fluid is entered…
Q: Water is to be withdrawn from an 11.2-m-high water reservoir by drilling a 4.1-cm-diameter hole at…
A:
Q: Qs: Air flows steadily through a horizontal nozzle. At the nozzle inlet, the velocity is 6 m's and…
A: Bernoulli's Equation is a type of Energy equation where sum of pressure head, kinetic energy head…
Q: F12-8. A particle travels along a straight line with a velocity of r = Determine the acceleration of…
A:
Q: Determine the discharge through three new cast-iron pipe connected in series, having diameters of…
A:
Q: a slid apunt a vertical axis with aguler a fluied rotatd a Velucity ), Theopressure vise (P)in a…
A:
Q: For the truss Structure Shown Dtermine the reaction at supports A and H Determine the forde in…
A:
Q: Based on the figure below find the applied force on P if the total deformation shortens by 0.0059…
A:
Q: The prismatic bar AC is supported by a hinge at C and cable ADB that runs through a frictionless…
A: Weight of the bar= 5 lb/ft For length AC, the weight of the bar, W=5(AC)= 5(10)= 50 lb. Note: Let…
Q: EXAMPLE: 7. If block A of the pulley system is moving downward at 6 ft/s while block C is moving…
A: find the relative velocity of B with respect to C.
Q: -Air at 20°C flows through a tube 8 cm dia with a velocity of 9 m/s. The tube wall is at 80°C.…
A:
Q: Given that 1ft = 12in and 1cm = 2.54inch, Convert 0.02515 ??3 to ??3 2. Convert 3.25 lb/??3 into…
A: Given:1 ft=12 in1 cm= 2.54 in
Q: Isabelle pour 158cm3 of glycerin, at a temperature of -12 oC, into a graduated cylinder initially at…
A: Given, Volume of glycerin poured initially = V = 158 cm3 Initial temperature of glycerin = Tgly-1 =…
Q: The inequality in the Clausius inequality holds for OB irreversible Cc.totally cycles OA totally…
A: Clausius inequality states that cyclic integral of the change in entropy of the reversible system is…
Q: Explain, how can you eliminate interference in gears?
A: Given question: How can you eliminate interference in gears. The given question is related to…
Q: A heat pump with the COP of 3.8 supplies heat at the rate of 289 kJ/min. If a bar heater was used…
A: Given:COP=3.8Qs=289 KJ/minCp=R2.50 KWhCo=200 cents
Q: For the shown truss, the vertical support reaction at A equals
A: Always start by calculaing the reaction at the node . Solve the truss by taking the sum of forces =…
Q: Q-6: Blocks A and B are identical with each weight of W. If the coefficient of static friction…
A:
Q: F1.5 in.- 1.5 in. 1.5 in. 1.5 in. F1.5 in.-
A:
Q: 20 kN 20 kN /m Vmax Mmax
A:
Q: 6. The 8-in.-radius brake drum is attached to a larger flywheel that is not shown. The total mass…
A:
Q: Question 2 A refrigeration cycle operates with R-134a. State 1 State 2 Saturated 15 psia 180 psia…
A: Dear student, we are suppose to solve only 3 sub parts. Please post other parts as a separate…
Q: 6-10 A solid plug gauge of steel has a diameter of 2-0004 cm and is forced into a ring gauge of the…
A:
Q: One of the smooth vertical walls supporting end B of the 145-kg uniform shaft is turned through a…
A:
Q: 5- An air-standard Diesel cycle has a compression ratio of 19. Air is at 130°F and 14.7 psia at the…
A:
Q: 39- The maximum shear stress in contact between two steel spheres a At the contact surfaceL b Under…
A: Option (a) is correct At the contact surface
Q: You are asked to find ỹ, x y R 60 mm B. E R 2 m R 40 mm T = 0.75 m C 3m X 3 m 60 mm 80 mm
A:
Q: Question 2: A sensitive instrument of mass 100 kg is installed at a location that is subjected to…
A: INTRODUCTION : In this problem, a sensitive device with certain features is used to measure the…
Q: A vertical plate is in the shape of a parabola 2 ft wide at the top and depth at the center is 4 ft.…
A: Givenρ=60lbs/ft3a=2ftb=4fth=4f
Q: A vapor-compression refrigeration system using ammonia as refrigerant is to be used to cool 45,000kg…
A: find the compressor work in KW.
Step by step
Solved in 2 steps with 1 images
- Solve the preceding problem using the following data: beam cross section is 100 x 150 mm, length is 3 m, and point load is P = 5 kN at mid-span, Point C is located 25 mm below the top of the beam and 0.5 m to the right of support A.A simple beam AB is loaded as shown in the figure. Calculate the required section modulus S if ^aibw = IS,000 psi, L = 32 ft, P = 2900 lb, and g = 450 lb/ft. Then select a suitable I-beam (S shape) from Table F-2(a), Appendix F, and recalculate 5 taking into account the weight of the beam. Select a new beam size if necessary. What is the maximum load P that can be applied to your final beam selection in part (a)?Each girder of the lift bridge (sec figure) is 180 ft long and simply supported at the ends. The design load for each girder is a uniform load of intensity 1,6 kips/ft. The girders are fabricated by welding three steel plates to form an I-shaped cross section (see figure) having section modulus S = 3600 in3. What is the maximum bending stress rmaxin a girder due to the uniform load?
- Segments A B and BCD of beam A BCD are pin connected at x = 4 m. The beam is supported by a sliding support at A and roller supports at C and D (see figure). A triangularly distributed load with peak intensity of SO N/m acts on EC. A concentrated moment is applied at joint D. (a) Find reactions at supports A, C, and D. (b) Find internal stress resultants N, Y, and Mat x = 5m. (c) Repeat parts (a) and (b) for die case of the roller support at C replaced by a linear spring of stiffness kr™ 200 kN/m (see figure).A simply supported wooden I-beam with a 12-ft span supports a distributed load of intensity q = 90 lb/ft over its length (see figure part a). The beam is constructed with a web of Douglas-fir plywood and flanges of pine glued to the web, as shown in the figure part b. The plywood is 3/8 in. thick: the flanges are 2 in, × 2 in, (actual size). The modulus of elasticity for the plywood is 1,600,000 psi and for the pine is 1,200,000 psL Calculate the maximum bending stresses in the pine flanges and in the plywood web. What is q, if allowable stresses are 1600 psi in the flanges and 1200 psi in the web?A cantilever beam A3, loaded by a uniform load and a concentrated load (sec figure), is constructed of a channel section. (a) Find the maximum tensile stresser, and maxi-mum compressive stress trcif the cross section has the dimensions indicated and the moment of inertia about the - axis (the neutral axis) is t = 3.36 in4. Note: The uniform load represents the weight of the beam. Find the maximum value of the concentrated load if the maximum tensile stress cannot exceed 4 ksi and the maximum compressive stress is limited to 14.5 ksi. How far from A can load P = 250 lb be positioned if the maximum tensile stress cannot exceed 4 ksi and the maximum compressive stress is limited to 14.5 ksi?
- A wood beam 8 in. wide and 12 in. deep (nominal dimensions) is reinforced on top and bottom by 0,25-in.-thick steel plates (see figure part a), (a) Find the allowable bending moment A/max about the z axis if the allowable stress in the wood is 1100 psi and in the steel is 15,000 psi, (Assume that the ratio of the moduli of elasticity of steel and wood is 20.) (b) Compare the moment capacity of the beam in part a with that shown in the figure part b which has two 4 in. × 12 in, joists (nominal dimensions) attached to a 1/4 in, × 11.0 in, steel plate.Beam ACB hangs from two springs, as shown in the figure. The springs have stiffnesses Jt(and k2^ and the beam has flexural rigidity EI. What is the downward displacement of point C, which is at the midpoint of the beam, when the moment MQis applied? Data for the structure are M0 = 7.5 kip-ft, L = 6 ft, EI = 520 kip-ft2, kx= 17 kip/ft, and As = 11 kip/ft. Repeat part (a), but remove Af0 and instead apply uniform load q over the entire beam.Two flat beams AB and CD, lying in horizontal planes, cross at right angles and jointly support a vertical load P at their midpoints (see figure). Before the load P is applied, the beams just touch each other. Both beams are made of the same material and have the same widths. Also, the ends of both beams are simply supported. The lengths of beams AB and CD are LABand LCD, respectively. What should be the ratio tABltCDof the thicknesses of the beams if all four reactions arc to be the same?
- A simple beam of length L = 5 m carries a uniform load of intensity q = 5,8 kN/m and a concentrated load 22.5 kN (see figure). (a) Assuming tra]]ow = 110 MPa, calculate the required section modulus S. Then select the most economical wide-flange beam (W shape) from Table F-l(b) in Appendix F, and recalculate S, taking into account the weight of the beam. Select a new beam if necessary. (b) Repeat part (a), but now assume that the design requires that the W shape must be used in weak axis bending (i.e., it must bend about the 2-2 (or y) axis of the cross section).Beam ABC is loaded by a uniform load q and point load P at joint C. Using the method of superposition, calculate the deflection at joint C. Assume that L = 4 m, a =2ra, q = 15 kN/m, P = 7.5 kN, £ = 200 GPa, and / = 70.8 X 106 mm4.A wood beam with a rectangular cross section (see figure) is simply supported on a span of length L. The longitudinal axis of the beam is horizontal, and the cross section is tilted at an angle a. The load on the beam is a vertical uniform load of intensity q acting through the centroid C. Determine the orientation of the neutral axis and calculate the maximum tensile stress bmaxif PROBLEMS 6.4-2 and 6.4-3 b = 80 mm, b = 140 mm, L = 1,75 m, a — 22.5°, and q = 7.5 kN/m.