200 mm 300 mm Steel 75 mm Brass
Q: A simple Brayton cycle operates between the pressure limits of 100 and 2000 kPa. The working fluid…
A:
Q: Liquid flows at a rate of 1.5 L/min in a circular tube with a diameter of 5 mm. inside a circular…
A: When an amount of fluid flows through the section, then the colume of the fluid pass through that…
Q: For the timber shape neglect friction and find 1-The dimension (b) if the allowable shear stress is…
A:
Q: Solve it using the given values provided below, The efficiency must be 35% In a simple rankine…
A:
Q: The following box beam is constructed from four boards that are fastened together using nails. A…
A:
Q: Calculate the allowable (ASD) tensile strength of a WT125X22.4 with a transverse weld to its flange…
A: INTRODUCTION: There are two types of weld joints: fillet weld and butt weld. The fillet weld is…
Q: A 21-tooth sprocket is connected to a 63-tooth sprocket by means of RC 60 having 180 pitches.…
A:
Q: A flywheel rotating at 500 rpm decelerates uniformly at a 3 rad/sec². How many seconds will it take…
A:
Q: a) The 1st Law of Thermodynamics states energy cannot be created nor destroy but can be converted…
A: 1st law of thermodynamics: According to this law, " Energy cannot be created nor destroyed it only…
Q: A solid 0.64-in.-diameter shaft is subjected to the torques shown. The bearings shown allow the…
A:
Q: What average net thrust must a17-ton airplane have to reach an altitude of 5,000 ft and a speed of…
A:
Q: In a SIMPLE RANKNE CYCLE!!!! cycle, the steam throttled condition is 8 MPa and 480°C. The steam is…
A:
Q: * For the cantilever beam shown. find the value of Flexural stress at point :C due to the 4 KN load…
A: Shear force. V= 4 kN= 4000 N Diameter, d= 100 mm To find: Value of flexural stress at point C and…
Q: A rectangular block is 6 in. long in the x – direction, 4 in. long in the y – direction, and 7 in.…
A:
Q: A centrifugal fan is delivering 2000 cfm of air at a total pressure differential of 2 in.w. The fan…
A: Disclaimer: Since you have posted a question with multiple subparts, we will solve the first three…
Q: Assuming the refrigerant vapour to behave as an ideal gas and with perfect intercooling,the optimum…
A:
Q: An ideal Rankine cycle has a boiler pressure of 8 MPa, a condenser pressure of 0.05 MPa, and the…
A:
Q: A key with a length of 7.5 times its thickness is subjected to a compressive force of 75 kN.…
A:
Q: 3. The 80-mm-radius wheel shown rolls without slipping to the left with a velocity of 900 mm/s.…
A:
Q: Using the psychometric chart , calculate the absolute humidity of air which has 50% RH and a…
A:
Q: B) I kg of a fluid is compressed reversibly according to a law pv-0.25 where p is in bar and v is in…
A:
Q: In a Rankine cycle, saturated liquid water at 1 bar is compressed isentropically to 150 bar. First…
A: Given data Cycle : Rankine Superheated cycle Turbine entry conditions : 150 bar and 750 K Condenser…
Q: 2. Gate AB is a quarter circle 10 ft wide into the paper and hinged at point B. Find the force F…
A:
Q: 12. The addition of heat in a combustion chamber allows a: Large expansion at a constant volume. O…
A:
Q: ". Compressor blades are twisted from root to tip:
A: Compressor blades are twisted from root to tip
Q: Problem 6-4 A compound cylinder is made by shrinkage an outer tube on to an inner tube, the final…
A: We know that a compound cylinder is created by shrinking an outer tube onto an inner tube, with…
Q: QUESTION 2 In Figure 2, the shaft is made of a solid A992 steel at section AB (rs = 25 mm),…
A:
Q: Air contained in a rigid volume of 0.5 m³ and initially at 400 kPa and 57°C receives 200 kJ of work…
A: Given data:
Q: A simple saturation cycle using ammonia between pressures of 10 psia and 165 psia…
A:
Q: Fig 2. F,(t) F2(t) k1 k3 k4 M1 m2 k2 X2 X1
A:
Q: Derive the equation of power transmitted by V-belt between two pulleys then find the cquation of…
A:
Q: A load P is supported by a structure consisting of rigid bar ABC, two identical solid bronze [E =…
A:
Q: 5. [vZ (cos + i sin) ( 6. 3-2i
A:
Q: A tapered bar AB of solid rectangular cross-section with a thickness of 20 mm and length L = 800 mm…
A:
Q: How much work is needed to compress air in an insulated cylinder from 0.2m3 to 0.01m3. Use t1=20C P1…
A:
Q: For the figure shown below. Calculate the increase in vertical stresses (Ac) at point A at depth of…
A:
Q: Q3/ For the system shown below, the following are applicable: pl= 5 bar Q=0.004 m3/s, pipe total…
A:
Q: A flywheel rotating at 500 rpm decelerates uniformly at a 3 rad/sec². How many seconds will it take…
A: N=500rpm Angular velocity of flywheel,w=2*π*N/60 w=2*π*500/60=50*π/3=52.36rad/sec Angular…
Q: A steel ball slides against an aluminum flat surface at two different normal loads. At low normal…
A:
Q: 6 The principal stresses at a point on a plane are 02 = 40 Determine the normal and shear stresses…
A: We know that the query specifies the principal stresses at a location on a plane.On this plane, we…
Q: 01: For the beam ABCD subjected to the loading shown in figure below (B intemal hinge): (1) draw the…
A:
Q: Question 33 A preheater used in a power plant preheats the boiler feed water by mixing water with…
A:
Q: Q1: How is the size of the abrasive grain chosen?
A:
Q: Question 31 Steam overheated at a flow of 3.5 kg/s enters a turbine at 500 °C and 900 kPa and exits…
A:
Q: 3B. 100-N block on a rough 30º-incline is acted upon by a force P as shown causing it to accelerate…
A:
Q: QUESTION 1 A loaded truss with a pin support at A and a roller support at G is shown in the below…
A:
Q: Example :- Calculate the speed required for 0.6 m³ tank in which 100 W/m3 is supplied to the tank,…
A:
Q: Part A In this problem you will consider the balance of thermal energy radiated and absorbed by a…
A: Law states that the radiation energy emitted from the surface of a black body per unit time per unit…
Q: 1 Consider a two degree of freedom bar elements as shown in figure. Using finite element method to…
A: formulate the equilibrium equation using finite element method .
Q: 7. IG for plate =1/2 m(a+b) "TRUE "FALSE 8. See the attached file VB2- VA2 Coffiecient of…
A:
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 1 images
- the machine element was made from steel by combining a cylindrical base with a cone on top, then cutting a semicylinder from the base. (steel density = 7850kg/m3)a. what's the x-coordinate of center of mass of the entire assemblyb. what's the y-coordinate of center of mass of entire assemblyc. what's moment of inertia of the entire assembly with respect to the y-axisCalculate and determine the Moments and Principal Axes of Inertia of the profiles below, indicating the best position to use the profile.h = 21 cmb = 28 cmCalculate and determine the Moments and Principal Axes of Inertia of the profile below, indicating the best position to use the profile. h = 21 cmb = 28 cm
- Calculate and determine the Moments and Principal Axes of Inertia of the profile below, indicating the best position to use the profile.Where:h = 21 cmb = 28 cmA hollow cylinder and a solid cylinder have the same diameter. Determine which has the greater moment of inertia with respect to an axis of rotation along the axis of the cylinder. (a) when the cylinders have equal mass hollow cylindersolid cylinder (b) when they have equal density solid cylinderhollow cylinderDetermine the moments of inertia and the product of inertia of the area of Prob. 9.72 with respect to new centroidal axes obtained by rotating the x and y axes 30° counterclockwise.(Reference to Problem 9.72):Using the parallel-axis theorem, determine the product of inertia of the area shown with respect to the centroidal x and y axes.
- Shown is the cross section of an idler roller. Determine its mass moment of inertia and its radius of gyration with respect to the axis AA ’. (The specific weight of bronze is 0.310 lb/in3 ; of aluminum, 0.100 lb/in3 ; and of neoprene, 0.0452 lb/in3).Determine the moments of inertia and the product of inertia of the area of Prob. 9.75 with respect to new centroidal axes obtained by rotating the x and y axes 45° clockwise.(Reference to Problem 9.75):Using the parallel-axis theorem, determine the product of inertia of the area shown with respect to the centroidal x and y axes.1) Sketch the cross-sectional picture of a W8x67 sitting on top of a W16x26 (the vertical centerlines are colinear). a)The magnitude of the Area Moment of Inertia about the horizontal centroidal axis of the built-up member is _____in4. b)The magnitude of the Area Moment of Inertia about the vertical centroidal axis of the built-up member is _____in4. c)The magnitude of the Area Moment of Inertia about the centroidal z-axis (aka Polar Moment of Inertia about the centroidal origin) of the built-up member is _____in4. d)The magnitude of the Radius of Gyration about the horizontal centroidal axis of the built-up member is _____in. e)The magnitude of the Radius of Gyration about the vertical centroidal axis of the built-up member is _____in. f)The magnitude of the Radius of Gyration about the centroidal z-axis (aka Polar Radius of Gyration about the centroidal origin) of the built-up member is _____in.
- ___________mm4 is the polar moment of inertia of a hollow shaft if its external diameter is 150mm and thickness is 25 mm.i beam questions findind moments of inertia about the horizontal and vertical axes crossing the centroid of the areaDetermine the moments of inertia and the product of inertia of the L3 x 2 x 1/4-14 angle cross section of Prob. 9.74 with respect to new centroidal axes obtained by rotating the x and y axes 30° clockwise.(Reference to Problem 9.75):Using the parallel-axis theorem, determine the product of inertia of the area shown with respect to the centroidal x and y axes.