6. A thin uniform rod AB of mass m = 1kg and length l = 1m is hinged at end A. The rod makes an angle 0 = 53° with the vertical axis and it is rotating with a constant angular velocity passing through end A as shown in the figure. Then choose the correct option(s). @ about the vertical axis m,l B (A) The angular velocity must be 5 rad/s. (B) The angular velocity must be 10 rad/s. (C) The net hinge reaction on the rod at end A 10√2 N. (D) The net hinge reaction on the rod at end A 10N.
Q: 5. A 4-point bending test is performed on a beam of length L = 1 m. A load of P = 2000 N is applied…
A: Solution:-
Q: 2. An ideal RANKINE cycle delivers 210 MW of power. Steam enters the turbine at 10 MPa and 500C and…
A:
Q: Please make the same graph on MATLAB, I need help on making the exact copy of the graph that is…
A: To create the same graph in MATLAB, we can use the `plot` and `lsline` functions. Here's the…
Q: I need a rules used in the ventilation system for the report "air quality and safe entertainment in…
A: Approach to solving the question:Search and read some design books for airconditiong and…
Q: A circular disk (ignore its thickness) of D = 1 m diameter is placed over a barbecue pit…
A: Step 1: Step 2:Additional Information:You might need to look up the value of the Stefan-Boltzmann…
Q: 1. A shaft 80 mm diameter transmits power at maximum shear stress of 63 MPa. Find the length of a…
A: Step 1: Step 2: Step 3: Step 4:
Q: 2. Consider a simple AM radio consisting of a tunable L-C circuit. The input is the voltage received…
A: (a) Determine the transfer function from (vs(t)) to (vo(t)):The given ordinary differential…
Q: Instead, assume variable specific heat An ideal Otto cycle has a compression ratio of 8. Atthe…
A:
Q: The load factor n is relationship between: ○ Lift/Drag ○ Thrust/Drag ○ Lift/Weight
A: Load Factor In an aircraft, the load factor can be defined as the ratio of lift to the total…
Q: Select All the correct statements from below. a. If the averaged distance between partial…
A: The question is asking to verify the correctness of four statements related to materials science and…
Q: Sensor systems for obstacle detection and avoidance in mobile robots. • Produce a written report…
A: Step 1: Step 2: Step 3: Step 4:
Q: The sensitivity of a potentiometer depends on its actual supply voltage. True False
A: The statement is false.The sensitivity of a potentiometer depends on the potential gradient along…
Q: QUESTION 2 Given the transfer function G(s) = s/{(s+9)(s+1)}, calculate the exact phase in radians…
A:
Q: solve
A: Step 1: Step 2: Step 3: Step 4:
Q: AutoSave On X Aptos (Body) U quiz 2. Saved hayley forster Home Insert Draw Design Layout References…
A: Here The Composite shape can be divided into three separate shapes : A Rectangle, Circle and and…
Q: Find the area A of the surface and the coordinates (Xc,Yc) of the center of gravity of C.
A: Step :
Q: Derive the velocities relationship between inlet and outlet.
A: The objective of this question is to derive the relationship between the velocities at the inlet and…
Q: Please show step to this problem Heat added to the working fluid at the boiler stage , Heat…
A:
Q: Please don't provide handwritten solution .....
A: Step 1:Step 2: Step 3: Step 4:
Q: Complex waveforms can be decomposed by a superposition of an infinite number (series) of periodic…
A: Yes, that's correct! Fourier transformation is a powerful mathematical tool that allows us to…
Q: Use crossed-strings method
A: Step 1:
Q: H.W1: Air enters an adiabatic nozzle steadily at 300 kPa, 200°C, and 30 m/s and leaves at 100 kPa…
A:
Q: бли R1 20 1. For the amplifier below, please answer the following questions www R2 40 Vs + R3 حشش A.…
A: Step 1: Step 2: Step 3: Step 4:
Q: Please help Matlab, as well needs to be on excel data sheet. P14.19 You perform experiments and…
A: 1. **Calculations:** a. Calculate the mean, median, mode, range, standard deviation, variance, and…
Q: Draw the free body diagrams of the following simple objects:
A: Free Body Diagram of Lawn Roller:Wherem = mass of roller W = weight of roller acticting vertically…
Q: Explain the process of annealing aluminum sheet
A: Annealing aluminum sheet is a heat treatment process used to enhance its properties by relieving…
Q: The steel pipe AB has a 72-mm outer diameter and a 5-mm wall thickness. Knowing that the arm CDE is…
A: Given Data: The steel pipe AB has a 72-mm outer diameter and a 5-mm wall thickness. The arm CDE is…
Q: A crude oil of kinematic viscosity 0.4 stoke is flowing through a pipe of diameter 300 mm at the…
A: <p>The Reynolds number (Re) is a dimensionless quantity that is used to predict the flow…
Q: What is the Gough Diagram and what is it used for in the dynamics of vehicle tires?
A: The Gough diagram is essentially a graph that shows how a tire responds to different combinations of…
Q: An air turbine operates with P₁ = 1200 kPa and T₁ = 1500 K at the inlet, an inlet area of A₁ = 0.1…
A:
Q: Entropy Generation and Carnot Performance: Consider the diagram below of a heat pump, engine 1, that…
A:
Q: solve and show each step in solution
A: Step 1: Step 2: Step 3: solution is given above Step 4:
Q: A metal bar is made out of A-36 steel and has a diameter d 20mm with the end at A fixed to the wall.…
A: Step 1: Step 2: Step 3: solution is given above Step 4:
Q: Motiyo
A: The objective of the question is to find the centroid y of the shaded area using the given values…
Q: QUESTION 4 Consider a two-degrees-of-freedom system shown below. k₁ www. kz wooo kz -0000 m2 mi What…
A: Step 1:Step 2:Step 3:Step 4:
Q: *18-12. Each gear has mass of 2 kg and a radius of gyration about its pinned mass center A or B,…
A:
Q: 1) Water flows through the 100- mm-diameter pipe at 0.035 m³/s. If the pressure at A is 475 kPa and…
A:
Q: Hi, can you please help me with this mechanics of materials problem? We have recently been studying…
A: Step 1:Step 2: Step 3: Step 4:
Q: Verify Eq. = εyy + Eyyε + εE - ExEE+YYY Y₁y + Y + viz) - Exxe - Ev - Er)
A: ExxEyy: Imagine E represents a mathematical operation (like differentiation or multiplication)…
Q: please answer ans explain
A: Step 1:1. Transfer Functions: Due to the complexity of deriving transfer functions for a…
Q: Q3. (a) A prismatic circular rod with one end fixed is acted on by the specified loadings as shown…
A: Material Modulus (E): (e.g., Pa, N/m^2, psi)Cross-sectional Area (A): (e.g., m^2, in^2)Length (L):…
Q: 6. Airplane components often have a “stressed skin" construction, which consists of a thin sheet of…
A:
Q: Measurement systems that contain elements do not respond instantaneously to changes in the input…
A: Measurement systems that contain inertance elements do not respond instantaneously to changes in the…
Q: Why do parts made by blown film extrusion usually have lower ductility and higher yield stress than…
A: When polymer is processed through blown film extrusion, it's stretched and aligned in a specific…
Q: Problem 3: Hydrostatics The cubical block depicted in the figure below is shifting between two…
A: The equilibrium positions of a shifting block, and whether it will pivot under certain…
Q: Draw the free body diagram for the left-hand side part separated by the imaginary cut a -a for the…
A: Step 1: Step 2: Step 3: Step 4:
Q: Modify the cycle in Problem 10.9 to have an isentropic compressor efficiency of 83% and let the…
A: Step 1:Step 2: Step 3: Step 4:
Q: s) The FD fan delivered the air at the static pressure (350 kPa) with dynamic pressure (150 kPa).…
A: Step 1:Given,Static pressure = 350 KPa = 35690 mm of WCDynamic Pressure = 150 KPa = 15296 mm of…
Q: 4. A bladed fan rotor with an outside diameter of 12 in. and a 5 in. inside diameter runs at 1725…
A: Step 1: Step 2: Step 3: Step 4:
Q: A multi bladed turbine disc can be assumed to have a combined mass of 150kg with an effective radius…
A:
Plz solve correctly
Step by step
Solved in 2 steps
- At some point, the wheel will turn as shown in the figure. Data: length of the bar = 500 mm, gyro radius of the bar = 100 mm, mass of the bar = 3 kg, mass of the wheel = 4 kg. Calculate for this moment: a) the acceleration of the sleeve at A, b) the angular acceleration of bar AB, c) the kinetic energy of bar AB.An oversized yo-yo is made from two identical solid disks each of mass M = 1.90 kgand radius R = 10.9 cm.The two disks are joined by a solid cylinder of radius r = 4.00 cm and mass m = 1.00 kg as in the figure below. Take the center of the cylinder as the axis of the system, with positive torques directed to the left along this axis. All torques and angular variables are to be calculated around this axis. Light string is wrapped around the cylinder, and the system is then allowed to drop from rest. Answer these parts: (g) Eliminate ? from the rotational second law with the expression found in part (d) and find a symbolic expression for the acceleration a in terms of m, M, g, r and R. a = (h) What is the numeric value for the system's acceleration? m/s2(i) What is the tension in the string? N(j) How long does it take the system to drop 1.17 m from rest? sA thin circular disc is fitted to a shaft as shown in figure. Weight of the disc is 500 N and diameter is 1.2 m. Shaft rotates at 300 r.p.m in anticlockwise direction when seen from the right side. Find the effect of the gyroscopic couple on the shaft and the bearing reactions at A and B taking the effect of the weight of the disc. 1 m. 1.5 m Figure
- In the figure, a shaft rotating with constant angular velocity and connected to this shaft at a distance of r1=136 cm, r2=49 cm, r3=69 cm and r4=61 cm m1=3.3 kg, m2=1.6 kg, m3=8.9 The point masses of kg and m4=10 kg are seen. Find the position of the counterweight in degrees, with rd=90 cm. (θ1=63˚, θ2=138˚, θ3=260˚, θ4=234˚)The wheel shown in the figure has the inner and outer radius of r1= 0.125 m and r2= 0.575m, respectively. Assume the two ropes shown are firmly attached to the inner radius r1. L₁ F G B r. E D a) If the upper wire of the wheel has a velocity v=5.6 m/s, the instantaneous centre of zero velocity is located at (A or B or D or G or F) b) Determine the angular velocity of the wheel w= = rad/s c) Determine the velocity of point E (be careful of signs) VE=----i_ + ---- J(4) r A BIA 30 disk: radius = r = 0.350m r B/A = 0.300m rad: length = L = 0,90 A disk and a rod are pin-connected at B, and are arranged as shown. Given that the disk rolls without sliding to the right, with center velocity V₁ = 3.6 m/s →, and that end I of the rod remains in A ) contact with the wall, use the ICR method to find : (a) the angular velocity WBD (b) the velocity V of end D (mag and direc) It is also given that A and B are at the same height. of the rod (mag and direc)
- (4) BIA f B D 30 disk: radius = r = 0.350m B/A 0.300m rod : length = L = (b) the velocity V of end D (mag and direc) D It is also given that A and B are at the same height. A disk and a rod are pin-connected at B, and are arranged as shown. Given that the disk rolls without sliding to the right, with center velocity V A ) = 3.6 m/s →→, and that end I of the red remains in contact with the wall, use the ICR method to find : (a) the angular velocity Wap of the rod (mag and direc) ०.१०A bevel gear is attached to a shaft supported by self-aligning bearings at A and B and is driven by a motor. The axial force, radial force, and tangential force are known. Assume the weight of the gear and shaft is negligible and that the bearing at A takes all the thrust load A) Draw (to scale) axial load, shaft torque, shear force(x-y and x-z), and bending moment(x-y and x-z)diagrams for the shaft B)Determine the values of axial load and torque along the shaftA turbine rotor is mounted on a stepped shaft that is fixed at both ends as shown in The torsional stiffnesses of the two segments of the shaft are given by k = 3,000 N-m/rad and k2 = 4,000 N-m/rad. The turbine generates a harmonic torque given by M(1) = Mo cos wt about the shaft axis with M, = 200 N-m and w = 500 rad/s. The mass moment of inertia of the rotor about the shaft axis is J, = 0.05 kg-m?. Assuming the equivalent torsional damping constant of the system as e, = 2.5 N-m-s/rad, determine the steady-state response of the rotor, 0(1). O(1) M(1) = Mg cos etr %3! Turbine rotor, Jo
- TION Composite body in Figure Q3a consists of rod AB welded to a disc at B. The rod and the disc masses are 10 kg and 30 kg respectively. By using Second Newton's Law, find: reaction at A when the cable is cut. a. b. reaction at A when 0 = 90°. Given angular velocity of the composite body w = 5.346 rad/s when 0 = 90°. Figure Q3a Rajah S3a A 0.5 m 0 B 0.4mQ1: In the below drawings, three unbalanced masses and related details are provided. Please answer the following questions. a) a balancing mass is to be located at rp = 50 mm, then what would be the balancing m1 m1 650 mm 200 mm m2 mass (m,) and its angular position (Op) (Please use the r2 m2 A graphical method) r3 m3 15 m3 b) If the system is not balanced what would be the reaction forces at A and B. (FA, FB=?) n = 150 rpm r; = 30 mm m, = 1 kg r2 = 20 mm 40 тm 13= m, =3 kg m; = 2 kg k = please choose an appropriate scaling factor yourself SHOT ON MI 6 MI DUAL CAMERAA shaft having length equal to 10 m and diameter equal to (50+ 01) mm is simply supported at both ends. The shatt carries four masses (150 + 01) kg, (200 + 01) kg, (250 +01) kg and (300 + 01) kg. These masses are located at a distance of 1.5m, 2.5 m, 5.5 mand 7.5 m from the left hand side support, respectively. The modulus of elasticity, E, for the material of the shaft is 200 GN/m? and mass density for the shaft material is 7500 kg/m?3. Determine critical speed of the shaft in revolutions per minute for the following two cases: 1. Effect of the mass of the shaft is neglected. 2. Effect of the mass of the shaft is considered. What is the usefulness of the answers determined in this problem?